JP4342818B2 - Game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gaming machine capable of performing a notice effect.
[0002]
[Prior art]
Conventionally, a pachinko machine, which is a type of gaming machine, has been provided with a notice effect (hereinafter referred to as “continuous notice”) in which a jackpot notice is continuously executed across multiple symbol combination games. ing. This continuous notice is given once in a single symbol combination game with a specific effect from several symbol combination games that are performed before the symbol combination game in which the big hit effect may be performed. The jackpot notice is to be continued across several symbol combinations. By the appearance of the continuous notice, the player can continue to have a sense of expectation that is a big hit across multiple symbol combination games. By the way, in the case of the continuous notice, when the jackpot notice is realized in a symbol combination game several times after its appearance and becomes a big hit, or when the big notice is not realized and the continuous notice ends without becoming a big hit was there. As a result, the former continuous notice notifies that the jackpot effect (the effect that the symbol combination game is developed so as to finally stop with the combination of jackpots) is performed. On the other hand, although the latter continuous notice notifies that the big hit effect will be performed, as a result, the combination of symbols capable of recognizing the discontinuation is stopped, so that it becomes a gasse continuous notice. The reason for the continuous notice of gasses is that if the continuous notice is set to be executed when the big hit is made, the player can recognize the big hit when the continuous notice appears or the continuous notice is executed. This is because there is a risk that the interest rate of the game will be killed due to a decrease in the proportion of the game.
[0003]
Such a continuous notice is proposed in the invention described in Patent Document 1, for example. In Patent Document 1, when the symbol display device side inputs a notice signal from the main control unit, the lottery probability is a lottery notice lottery, so the main control unit can output the notice signal continuously (there is a special prize). In the case of), a continuous notice is likely to appear. In Patent Document 1, the continuous notice performed by lottery based on the input of a notice signal becomes a big hit when the big hit notice is realized. On the other hand, in Patent Document 1, when the symbol display device side does not input a notice signal, a notice lottery with a low lottery probability is performed. And when the winning lottery with low probability is won, the number of notices is randomly set between 1 and 4, and the notice lottery with high probability is set until the number of notices reaches 0 (zero). Because it is done, continuous notice is likely to appear. The continuous notice performed in this case is a continuous notice because the symbol display device does not input a notice signal.
[0004]
[Patent Document 1]
JP 2002-85731 A
[0005]
[Problems to be solved by the invention]
By the way, in Patent Document 1, if the symbol display device side is set so as to always execute a continuous notice when a notice signal is input, it will not be a big hit unless the continuous notice is executed. For this reason, Patent Document 1 is configured to determine whether or not to execute the continuous notice by lottery, and creates a case where the continuous notice is executed and a big hit occurs even if the continuous notice is not executed. ing. However, if it is decided by lottery whether or not to execute the continuous notice, after the gasse continuous notice is executed according to the lottery result, there is no notice in the next symbol combination game, and it is a big hit effect. Could be done. In this case, even if the continuous notice appears, the jackpot effect is not performed, but the jackpot effect is performed without any notice, which causes the player to lose the expectation of the jackpot notice.
[0006]
The present invention has been made paying attention to such problems existing in the prior art, and its purpose is to provide a gaming machine that can execute a notice effect at an appropriate timing to improve the interest. It is to provide.
[0007]
[Means for Solving the Problems]
  In order to solve the above problems, the invention according to claim 1 is capable of executing various control related to game effects based on a main control means for controlling the entire gaming machine and a control signal output by the main control means. In the gaming machine comprising the sub-control means, the main control means is a reserved ball number storage means capable of storing a number of stored start balls in response to a winning detection of the game ball by the winning detection means, and the winning detection. A jackpot determining means for comparing the value of the random number for determination read out as a trigger with a predetermined jackpot determination value to determine whether or not the jackpot is determined, and the jackpot determinationvalueWhen the notice determination value determined in advance is compared with the value of the random number for determination read in response to the detection of the winning, it is determined whether the notice effect can be executed, and the determination result is executable , A main-side notice determining means for determining the number of executions of the notice effect based on the stored number of start reserved balls, a pattern determining means for determining an effect pattern that can specify at least the contents of the effect of the game effect, A signal output means for outputting, to the sub-control means, a reserved ball number signal for instructing the stored number, a pattern signal for instructing the effect pattern, and a notice signal for instructing the number of executions of the notice effect determined by the main-side notice determining means. The sub-control means determines whether to execute a notice effect in the game effect triggered by the input of the reserved ball number signal, and if the determination result is affirmative, Determining the number of executions of the prediction effect based on the number of storage for the indicated starting hold balls in Tomedama speed signalSub sideNotice determination means,In the case of causing the main notice announcement means to execute the notice effect by determining whether the notice effect can be executed,The first number of executions which is the number of executions of the notice effect instructed by the notice signalWhile setting as the setting means,In the case where the sub notice announcement determining means determines that the notice effect can be executed, the notice effect is executed.The second execution number which is the number of executions of the notice effect determined by the notice determination meansNumberThe execution number setting means set in the setting means, the effect determination means for determining whether or not the effect content of the game effect based on the effect pattern instructed by the pattern signal is the specific effect content, and the notice effect is executed Counting means for counting the number of times played, and a predetermined number of times in the previous game effects including the notice effect executed in the previous game effect performed immediately before the game effect based on the number of times counted by the counting means The number-of-times determining means for determining whether or not the notice effect has been executed, and when the number of executions is set in the setting means, the notice effect is controlled according to the number of executions, and the setting is performed. If the number of executions is not set in the means, and the determination result of the number determination means and the effect determination means are both affirmative, Notice control means for performing control to execute the notice effect in the technical effect, and the counting means counts the number of times the notice effect is executed when the first number of executions is set. And a second counting unit that counts the number of times the announcement effect has been executed when the second number of executions is set, and the number determination unit is configured to count the number of times counted by the second counting unit. Is configured to determine whether or not a predetermined number of notice effects have been executed.The sub control means includes a continuous number determination means for determining whether or not the number of times counted by the second counting means has reached a predetermined number of consecutive notice effects, and a determination result of the continuous number determination means If the result is affirmative, the notice control means is provided with an execution restriction means for restricting execution of the control for executing the notice effect, and the specific effect content is developed so as to finally stop with a combination of jackpots. It includes the big hit effect and the specific reach effect, and is the effect content of the outage effect developed so as to be finally stopped by the combination of deviations, and the notice control means determines the number of times determination means and the effect determination means Control that executes the notice effect without being restricted by the execution restricting means when the specific effect content when the result is positive is the effect content of the jackpot effect It is configured to performThis is the summary.
[0008]
  The invention according to claim 2 is the gaming machine according to claim 1,The execution limiting means is that the specific effect content when the determination results of the number of times determination means and the effect determination means are both affirmative is the effect content of the outlier effect, and the determination result of the continuous number of times determination means Is configured so as to restrict the notice control means from performing control to execute the notice effect.This is the gist.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
A first embodiment in which the present invention is embodied in a pachinko gaming machine (hereinafter referred to as a “pachinko machine”), which is one type of the present invention, will be described below with reference to FIGS.
[0013]
In FIG. 1, the front side of the pachinko machine 10 is schematically shown, and a vertical rectangular middle frame 12 for setting various game components is opened and closed on the front side of the opening of the outer frame 11 that forms the outline of the machine body. And is detachably assembled. On the front side of the middle frame 12, a front frame 14 and a top ball tray 15 each having a glass frame for protecting the game board 13 disposed inside the machine in a see-through manner are assembled so as to be openable and closable in a laterally open state. . The front side of the front frame 14 and the game area 13a of the game board 13 are turned on (flashing) or turned off according to various game states (symbol variation, big hit state, etc.), and a game effect based on the light emission decoration (light emission effect) A frame lamp (light emission effect device) 16 and a game board lamp (light emission effect device) 17 are provided. Below the outer frame 11 (lower part of the pachinko machine 10), a speaker (sound effect device) 18 that outputs various sounds according to the game state and performs a game effect (sound effect) based on the sound output is arranged. ing. A lower ball tray 19 and a launching device 20 are attached to the lower part of the middle frame 12.
[0014]
In the approximate center of the game area 13a of the game board 13, a variable display device (display effect device) 21 having a visible display portion H made of a liquid crystal screen is disposed. In the liquid crystal variable display device 21, a game effect (display effect) based on a varying image (or image display) is performed. In the variable display device 21, a symbol combination game (symbol variation effect) for deriving a symbol combination by varying a plurality of types of symbols (identification information) in a plurality of columns is performed in association with the display effect. ing. In the present embodiment, a combination of three columns of symbols is derived in the symbol combination game, and eight types of symbols of 0, 1, 2, 3, 4, 5, 6, and 7 constituting each combination are derived. It is a number.
[0015]
Then, the player can recognize a big hit or a loss from the symbol combination finally stopped (determined stop display) in the visible display portion H. When the symbols of all rows stopped in the visible display portion H are of the same type, the big hit can be recognized from the symbol combination ([111] [777] or the like). The symbol combination that can recognize the jackpot is a jackpot combination. In the case of stopping with a combination of jackpots, the player is given a jackpot state (special game state). Further, when the symbols of all the columns stopped in the visible display portion H are of different types, or when the symbols of one row are of a different type from the symbols forming the reach, the symbol combination ([234] [122] [767] ] Etc.) can be recognized. A combination of symbols that can recognize this deviation is a combination of deviations. Further, in the present embodiment, the symbols are temporarily stopped (temporarily stopped) in the order of left column → right column → middle column as viewed from the player side. When the left symbol and the right symbol that have been stopped are of the same type, the reach can be recognized from the symbol combination ([↓] indicates a variable display, such as [1 ↓ 1]).
[0016]
Below the variable display device 21, a start winning opening 23 having an opening / closing blade 22 that opens and closes by an operation of an actuator (solenoid, motor, etc.) (not shown) is disposed. Behind the start winning opening 23, a start winning opening sensor SE1 (shown in FIG. 3) for detecting a winning game ball is provided. The start winning port 23 can give a start condition for the symbol combination game (start condition for changing the symbol) upon detection of winning of a game ball. Also, below the start winning opening 23, a large winning opening 24 provided with a large winning opening door 24a that opens and closes by the operation of an actuator (solenoid, motor, etc.) (not shown) is disposed. The special winning opening 24 is derived by the symbol combination game, and the special winning opening door 24a is opened and closed in association with the symbol combination finally stopped being a combination of big hits, so that it is opened or closed. ing. When the big win state is awarded, the big winning opening 24 is opened by the opening / closing operation of the big winning opening door 24a so that the game balls can be won. be able to.
[0017]
In addition, the variable display device 21 informs the number of held symbol combination games based on the number of stored start balls stored in the machine (RAM 26c) (hereinafter referred to as “the number of held memories”). A number indicator 25 is provided (FIG. 2). The reserved memory count is incremented by 1 (+1) when a game ball wins the start winning opening 23, and is subtracted by 1 (-1) when the symbol combination game starts, and the game ball wins the start winning aperture 23 during the symbol combination game. Then, the reserved storage number is further added and accumulated up to a predetermined upper limit value (4 in the present embodiment). The reserved ball number display 25 is composed of a plurality (four) of light emitting means including a hold 1 lamp 25a, a hold 2 lamp 25b, a hold 3 lamp 25c, and a hold 4 lamp 25d. For example, when only the hold 1 lamp 25a is lit, it is informed that one symbol combination game is on hold.
[0018]
Next, the control configuration of the pachinko machine 10 will be described with reference to FIG.
On the back side of the pachinko machine 10, a main control board (main control unit) 26 is mounted as main control means for controlling the entire gaming machine. The main control board 26 executes various processes for controlling the entire gaming machine, and calculates various control commands according to the processing results. The main control board 26 outputs the control command as a predetermined control signal. A display control board (display control unit) 27 for controlling the variable display device 21 is mounted on the rear side of the machine. A lamp control board (light emission control unit) 28 for controlling the frame lamp 16, the game board lamp 17 and the reserved ball number display 25 is mounted on the rear side of the machine. A sound control board (sound control unit) 29 for controlling the speaker 18 is mounted on the rear side of the machine.
[0019]
On the back side of the machine, there is an overall control board (overall control) that comprehensively controls the display control board 27, the lamp control board 28, and the audio control board 29 based on a control signal (control command) output from the main control board 26. Part) 30 is mounted. The overall control board 30 executes various processes for overall control of the control boards 27 to 29, and outputs a control command as a predetermined control signal. Each of the control boards 27 to 29 receives various control signals (control commands) output from the main control board 26 and various control signals (control commands) output from the overall control board 30 and receives the control signals (control commands). ) To control game effects.
[0020]
In this embodiment, the display control board 27, the lamp control board 28, and the voice control board 29 serve as an effect control unit that controls the effect devices (the variable display device 21, the frame lamp 16, the game board lamp 17, and the speaker 18). The control board 30 serves as a general control unit that controls each of the production control units. In the present embodiment, the display control board 27, the lamp control board 28, the sound control board 29, and the overall control board 30 perform various controls (displays) based on the control signal output from the main control means (main control board 26). Sub-control means (enclosed by a broken line in FIG. 3) capable of executing control, light emission control, sound control, notification control, and notice control) is configured.
[0021]
Hereinafter, specific configurations of the main control board 26, the display control board 27, the lamp control board 28, the sound control board 29, and the overall control board 30 will be described.
The main control board 26 includes a main CPU 26a, and a ROM 26b and a RAM 26c are connected to the main CPU 26a. The main CPU 26a is a jackpot determination random number (determination random number), a jackpot symbol random number, a reach determination random number, a left symbol random number, a middle symbol random number, a right symbol random number, a production pattern distribution random number, and the like. The random number value is sequentially updated every predetermined period, the updated value is set in the RAM 26c, and the value before the update is rewritten. Hereinafter, the big hit determination random number will be referred to as a “big hit random number”. The ROM 26b stores a control program for controlling the pachinko machine 10 and a plurality of types of effect patterns. The RAM 26c stores (sets) various types of information (such as the number of stored memories and random numbers) that can be appropriately rewritten during the operation of the pachinko machine 10. In the present embodiment, the ROM 26b serves as effect pattern storage means for storing effect patterns.
[0022]
The effect pattern indicates a pattern that is a base of a game effect (display effect, light emission effect, sound effect) from when the symbol variation starts until the symbols (or symbol combinations) of all the columns stop. . In the effect pattern, a game effect time is determined for each effect pattern, and the game effect time can be specified. The production patterns are classified and stored in the ROM 26b for the big hit production, the outlier production with reach, and the outage production without reach. Specifically, the ROM 26b stores effect patterns P1 and P2 for a jackpot effect, effect patterns P3 and P4 for a loss effect with reach, and an effect pattern P5 for a loss effect without reach. And in this embodiment, since the production pattern is classified into for the big hit production, for the outage production with reach and for the outage production without reach, the type of the production pattern (P1 or P2) along with the game production time. Or P3, P4, or P5), the effect content of the game effect can be specified.
[0023]
The jackpot effect is an effect in which the symbol combination game is developed so as to stop at the jackpot combination. When the symbol combination game is played with the effect pattern for the jackpot effect, there is a case where the game is stopped by the combination of jackpots after reaching the reach effect and a case of stopping by the combination of jackpots without passing the reach effect. The outlier effect is an effect in which the symbol combination game is developed so as to stop at a combination of outliers. When a symbol combination game is played with an effect pattern for an outlier effect, there is a case where the combination is stopped after a reach effect (so-called “reach reach”) and a case where the combination is stopped without a reach effect. In the present embodiment, when stopping with a combination of detachment after reaching a reach effect, it is set as an effect pattern for losing effect with reach, and when stopping with a combination of detachment without passing a reach effect, the effect for losing effect without reach It is a pattern.
[0024]
In addition, the reach effect is an effect that is performed from the reach state until the combination of big hits or the combination of losing is stopped or temporarily stopped. In the present embodiment, in the game effect (display effect) based on the effect pattern P3 for the outlier effect with reach, a reach effect that develops in two stages (develops from a normal reach effect to a super reach effect) is performed. As a result of reach production, combinations of deviations are derived. In the present embodiment, the reach effect that develops in the two stages is a specific reach effect. In addition, in the game effect (display effect) based on the effect pattern P4 for the outlier effect with reach, the reach effect is not developed (only the normal reach effect), and a combination of deviations is derived as a result of the reach effect. It has become. In this way, by developing the contents of the reach production in multiple stages, the player's sense of expectation for the big hit can be changed. Compared to the production before development (normal reach production), Production (super reach production) can increase the sense of expectation for the big hit.
[0025]
The main CPU 26a inputs a detection signal output by the winning detection means constituted by the starting winning port 23 and the starting winning port sensor SE1, and performs various processes related to the symbol combination game (determination of reserved memory number, jackpot determination, Reach determination, determination of stop symbol, determination of effect pattern, etc.) are executed.
[0026]
The determination of the number of reserved memories is performed based on the number of reserved memories shown in FIG. 5 when the detection signal is input. In the reserved memory number process, the main CPU 26a determines whether or not the reserved memory number stored in the RAM 26c is less than the upper limit value (4 in the present embodiment) (step S1). If this determination result is affirmative (the number of stored storages <4), the main CPU 26a adds 1 to the stored storage number stored in the RAM 26c, and rewrites the stored stored number (step S2). On the other hand, if the determination result of step S1 is negative (the number of reserved memories = 4), the main CPU 26a does not rewrite the reserved memory number exceeding the upper limit value, and ends the reserved memory number process. The main CPU 26a having rewritten the reserved memory number sets the RAM 26c so as to output a hold designation command (holding ball number signal) instructing the notification of the reserved memory number to the overall CPU 30a of the overall control board 30 (step S3). Then, the main CPU 26a ends the pending storage number process and outputs the pending designation command set in the RAM 26c. Note that the main CPU 26a also outputs a hold designation command even when the hold storage number is decremented by 1 at the start of the symbol combination game.
[0027]
In the present embodiment, a plurality of types of hold designation commands for designating the number of reserved memories are output according to the number of reserved memories. Specifically, since the upper limit value of the number of pending memories is 4, five types of pending designation commands, ie, a pending 0 designation command, a pending 1 designation command, a pending 2 designation command, a pending 3 designation command, and a pending 4 designation command are provided. Is output. The pending 0 designation command is output when the pending storage number is rewritten from “1 → 0”, and the pending 1 designation command is output when the pending storage number is rewritten from “0 → 1” or “2 → 1”. The specified command is output when the number of reserved memories is rewritten from “1 → 2” or “3 → 2”. The hold 3 designation command is output when the hold memory number is rewritten from “2 → 3” or “4 → 3”, and the hold 4 designation command is output when the hold memory number is rewritten from “3 → 4”.
[0028]
Further, when the main CPU 26a determines that the number of reserved memory at the time of winning detection is less than the upper limit value in the reserved memory number processing, the value of the big hit random number and the value of the big hit symbol random number from the RAM 26c triggered by the input of the detection signal. The data is read out and sequentially stored (stored) in a predetermined storage area of the RAM 26c. The main CPU 26a compares the jackpot random number stored in the RAM 26c with the jackpot determination value stored in the ROM 26b immediately before the start of the symbol combination game based on the winning detection and makes a jackpot determination. If the result of the jackpot determination is affirmative (the value of the jackpot random number matches the jackpot determination value), the main CPU 26a determines the jackpot. The jackpot determination value is determined from numerical values that the jackpot random number can take. In the present embodiment, the values that can be taken by the jackpot random number are defined as 0 to 946 (total of 947 different integers), while the jackpot determination value is defined as three values of “7, 349, 919”. Therefore, when using three jackpot determination values, the jackpot probability is 3/947 (= 315.7).
[0029]
When the big hit is determined, the main CPU 26a determines the symbols (stopped symbol left, middle, right) to be finally stopped by the visible display part H from the value of the random number for the big hit symbol stored in the RAM 26c. Specifically, the random numbers for the jackpot symbol are set to the stop symbol left, in the stop symbol, and in the stop symbol right (the respective stop symbols are of the same type). The determined stop symbol left, stop symbol, and stop symbol right are finally derived in the visible display portion H as a left symbol, a middle symbol, and a right symbol. The main CPU 26a reads the value of the effect pattern distribution random number from the RAM 26c, and determines one effect pattern from the effect patterns for the big hit effect based on the value. In the present embodiment, one effect pattern is determined from the effect patterns P1 and P2 for the jackpot effect.
[0030]
On the other hand, if the determination result of the jackpot determination is negative (the value of the jackpot random number does not match the jackpot determination value), the main CPU 26a uses the reach determination random number value read from the RAM 26c and the reach determination value stored in the ROM 26b. A reach determination is made by comparison. If the reach determination result is affirmative (the reach determination random number value matches the reach determination value), the main CPU 26a determines the reach. When the reach is determined, the main CPU 26a determines a stop symbol from the random symbol random value that is out of the left symbol random number read from the RAM 26c. Specifically, the left design random number value is set to the stop symbol left and the stop design right (the stop symbol left and right are of the same type), and the out-of-out design random number value is set to the stop symbol. At this time, the main CPU 26a determines the stop symbol so that the stop symbol left and the stop symbol do not match if the value of the out-of-order left symbol random number matches the value of the middle symbol random error. The main CPU 26a reads the value of the effect pattern distribution random number from the RAM 26c, and determines one effect pattern from the effect patterns for the irrelevant effect based on the value. In the present embodiment, one effect pattern is determined from among the effect patterns P3 and P4 for the outlier effect with reach.
[0031]
On the other hand, if the determination result of the reach determination is negative (the reach determination random number value and the reach determination value do not match), the main CPU 26a determines the deviation. When the determination of the loss is made, the main CPU 26a determines the stop symbol from the value of the random symbol for the left symbol, the value of the random symbol for the middle symbol, and the value of the random number for the right symbol that are read from the RAM 26c. More specifically, the value of the left design random number is set to the stop symbol left, the value of the random design random symbol is set to the stop design, and the value of the right design random number is set to the stop design right. At this time, the main CPU 26a determines the stop symbol right so that the stop symbol left does not coincide with the stop symbol right when the value of the off symbol left symbol random and the value of the right symbol random match. Further, the main CPU 26a reads out the value of the effect pattern distribution random number from the RAM 26c, and determines one effect pattern from the effect patterns for the non-reach effect based on the value. In the present embodiment, the production pattern P5 for the production of the outlier without reach is determined.
[0032]
The main CPU 26a that has determined the stop symbol and the effect pattern outputs a predetermined control command to the central CPU 30a of the central control board 30 at a predetermined timing. First, the main CPU 26a specifies an effect pattern and outputs an effect pattern specifying command (pattern signal) for instructing the start of symbol variation. Next, the main CPU 26a executes a left symbol designation command for designating the left symbol, a middle symbol designating command for designating the middle symbol of the stop, and a right symbol designating command for designating the right symbol of the stop symbol. → Output in the order of medium symbol designation command. After that, the main CPU 26a outputs all symbol stop commands instructing to stop symbols in each column when the game effect time set in the designated effect pattern has elapsed. In the present embodiment, the main CPU 26a is configured to function as a big hit determination unit, a signal output unit, and a pattern determination unit. In the present embodiment, the RAM 26c is configured to function as a reserved ball number storage unit.
[0033]
Next, the overall control board 30 will be described. The overall control board 30 includes an overall CPU 30a, and a ROM 30b and a RAM 30c are connected to the overall CPU 30a. The ROM 30b stores a control program for comprehensively controlling the control boards 27 to 29. The ROM 30b stores a plurality of types (four types in the present embodiment) of notice effect patterns YP1, YP2, YP3, and YP4 (FIG. 4). The notice effect pattern is for specifying the specific effect contents of the jackpot notice (notice effect) executed by the control of each control board 27-29. The jackpot notice is an effect for informing the player in advance that there is a possibility that a jackpot effect will be performed (or that a jackpot state will occur). In the present embodiment, the contents of effects specified by the respective notice effect patterns YP1 to YP4 are made different. The RAM 30c stores (sets) various types of information (such as random number values) that are appropriately rewritten during the operation of the pachinko machine 10. In the present embodiment, the ROM 30b serves as a notice effect pattern storage unit that stores a notice effect pattern.
[0034]
When the general CPU 30a receives the effect pattern designation command, the general CPU 30a outputs the effect pattern designation command to each of the sub CPUs 27a to 29a. At this time, when it is determined to execute the jackpot notice, the general CPU 30a determines one notice effect pattern from a plurality of types of notice effect patterns YP1 to YP4, and designates the notice effect pattern. A pattern designation command is output to each of the sub CPUs 27a to 29a of each of the control boards 27 to 29. Further, when the overall CPU 30a inputs each symbol designation command and all symbol stop commands, the overall CPU 30a outputs each symbol designation command and all symbol stop commands to the sub CPU 27a of the display control board 27. Further, when the general CPU 30a inputs a hold designation command, the general CPU 30a outputs the hold designation command to the sub CPU 28a of the lamp control board 28.
[0035]
Next, the display control board 27, the lamp control board 28, and the sound control board 29 will be described.
The display control board 27 includes a sub CPU 27a, and a ROM 27b and a RAM 27c are connected to the sub CPU 27a. The ROM 27b stores a plurality of types of display execution data for display effects and various types of image information (image information such as symbols, backgrounds, characters, appearance characters, etc.). The ROM 27b stores a plurality of types of notice effect execution data for display effects. The RAM 27c stores (sets) information that is appropriately rewritten during the operation of the pachinko machine 10. The display execution data for the display effects is displayed on the variable display device 21 (visible display portion H) so that the sub CPU 27a performs a display effect based on the specified effect pattern (design variation, character operation, visible display). This is information for controlling the background of the part H). This effect execution data shows the flow of display effects from the start of symbol variation to the stop of symbols in all rows. The notice effect execution data for the display effect is information for the sub CPU 27a to control the display content of the variable display device 21 (visible display unit H) so that the effect of the big hit notice is performed based on the designated notice effect pattern. It is. In the ROM 27b, one effect execution data is associated with one effect pattern, and one notice effect execution data is stored in association with one notice effect pattern.
[0036]
Accordingly, when the sub CPU 27a inputs the effect pattern designation command and the notice effect pattern designation command, the sub CPU 27a reads the effect execution data and the notice effect execution data from the ROM 27b, and the visual display unit H of the visual display unit H is read based on the effect execution data and the notice effect execution data. Control display content. With this control, the visual display unit H performs a display effect including a big hit notice. On the other hand, when only the effect pattern designation command is input, the sub CPU 27a reads only the effect execution data from the ROM 27b, and controls the display content of the visible display unit H based on the effect execution data. With this control, in the visible display portion H, a display effect is performed in a state where there is no big hit notice. In the present embodiment, the sub CPU 27a serves as a notice device control means for controlling the notice device (variable display device 21).
[0037]
The lamp control board 28 includes a sub CPU 28a, and a ROM 28b and a RAM 28c are connected to the sub CPU 28a. The ROM 28b stores production execution data for a plurality of types of light emission effects and notice execution execution data for a plurality of types of light emission effects. The ROM 28b stores notification execution data for winning notification (information for controlling the display mode (lighting or extinguishing etc.) of the reserved ball number display 25). Information that can be appropriately rewritten during operation of the pachinko machine 10 is stored (set) in the RAM 28c. The effect execution data for the light emission effect is for the sub CPU 28a to control the light emission mode (lighting timing, lighting time, etc.) of the frame lamp 16 and the game board lamp 17 so that the light emission effect based on the designated effect pattern is performed. Information. This effect execution data shows the flow of the light emission effect from the start of the game effect (start of symbol variation) to the end of the game effect (stop of symbols in all rows). The notice effect execution data for the light emitting effect is information for the sub CPU 28a to control the light emission mode of the game board lamp 17 so that the effect of the big hit notice is performed based on the designated notice effect pattern. In the ROM 28b, one effect execution data is associated with one effect pattern and one notice effect execution data is associated with one notice effect pattern and stored.
[0038]
Accordingly, when the sub CPU 28a inputs the effect pattern designation command and the notice effect pattern designation command, the sub CPU 28a reads the effect execution data and the notice effect execution data from the ROM 28b, and the frame lamp 16 and the game based on the effect execution data and the notice effect execution data. The light emission mode of the panel lamp 17 is controlled. By this control, the frame lamp 16 and the game board lamp 17 perform a light emission effect including a big hit notice. On the other hand, when only the effect pattern designation command is input, the sub CPU 28a reads only the effect execution data from the ROM 28b, and controls the light emission modes of the frame lamp 16 and the game board lamp 17 based on the effect execution data. By this control, the frame lamp 16 and the game board lamp 17 perform a light emission effect without a big hit notice. In the present embodiment, the sub CPU 28a serves as a notice device control means for controlling the notice device (game board lamp 17). Further, when the sub CPU 28a inputs a hold designation command, the sub CPU 28a reads out notification execution data corresponding to the hold designation command from the ROM 28b, and controls the light emission mode of the hold ball number display 25 based on the notification execution data. With this control, the reserved ball number indicator 25 turns on or turns off a predetermined lamp to notify the number of stored memories.
[0039]
The audio control board 29 includes a sub CPU 29a, and a ROM 29b and a RAM 29c are connected to the sub CPU 29a. The ROM 29b stores production execution data for a plurality of types of sound effects and preview effect execution data for a plurality of types of sound effects. The RAM 29c stores (sets) information that can be appropriately rewritten during the operation of the pachinko machine 10. The production execution data for audio production is information for the sub CPU 29a to control the audio output mode (sound effect type, audio output time, etc.) of the speaker 18 so that the audio production based on the designated production pattern is performed. It is. This effect execution data shows the flow of the sound effect from when the game effect is started (symbol variation is started) to when the game effect is ended (symbols in all rows are stopped). The notice effect execution data for the sound effect is information for the sub CPU 29a to control the sound output mode of the speaker 18 so that the effect of the big hit notice based on the designated notice effect pattern is performed. In the ROM 29b, one effect execution data is associated with one effect pattern, and one notice effect execution data is stored in association with one notice effect pattern.
[0040]
Therefore, when the sub CPU 29a inputs the effect pattern designation command and the notice effect pattern designation command, the sub CPU 29a reads the effect execution data and the notice effect execution data from the ROM 29b, and outputs the sound of the speaker 18 based on the effect execution data and the notice effect execution data. Control aspects. By this control, the speaker 18 performs a sound effect including a big hit notice. On the other hand, when only the effect pattern designation command is input, the sub CPU 29a reads only the effect execution data from the ROM 29b, and controls the sound output mode of the speaker 18 based on the effect execution data. With this control, the speaker 18 performs sound production without a big hit notice. In the present embodiment, the sub CPU 29a serves as a notice device control means for controlling the notice device (speaker 18).
[0041]
Here, the effect contents of the jackpot notice specified by the notice effect patterns YP1 to YP4 will be described (FIG. 4).
In the notice effect execution data for display effect associated with the notice effect pattern YP1, the notice character K1 (FIG. 10, FIG. 10) is displayed on the visible display portion H at a predetermined timing (when a predetermined time elapses after the start of symbol variation). 11 (shown in FIG. 11 and FIG. 12) is displayed (displayed) and the jackpot notice is shown. In addition, in the notice effect execution data for display effect associated with the notice effect pattern YP2, the notice characters K1, K2 (in the visible display portion H at a predetermined time (after the start of symbol variation)) 10 (shown in FIGS. 10, 11 and 12) is displayed (displayed) and the jackpot notice is shown. In addition, in the notice effect execution data for display effects associated with the notice effect pattern YP3, the notice characters K1, K2, and the notice characters K1, K2, and the like are displayed on the visible display portion H at a predetermined timing (after a predetermined time has elapsed after the start of symbol variation). It is shown that K3 (shown in FIGS. 11 and 12) appears (displays) and a jackpot notice is executed. In addition, in the notice effect execution data for display effects associated with the notice effect pattern YP4, the notice characters K1, K2, and the notice characters K1, K2, and the like are displayed on the visible display portion H at a predetermined timing (after a predetermined time has elapsed after the start of symbol variation). It is shown that K3 and K4 (shown in FIG. 12) appear (display) and a big hit notice is executed. In the present embodiment, each effect content (display effect) of the notice effect patterns YP1 to YP4 is composed of different effect contents. Specifically, in each of the notice effect patterns YP1 to YP4, the number of notice characters K1 to K4 appearing in the visible display portion H is different.
[0042]
Further, in the notice effect execution data for the light emission effects associated with each of the notice effect patterns YP1 to YP4, notice characters K1 to K4 appear at a predetermined timing (a predetermined time has elapsed after the start of symbol variation). It is shown that the jackpot notice is executed by flashing the game board lamp 17 for a predetermined time. In addition, the notice characters K1 to K4 appear at a predetermined timing (when a predetermined time elapses after the start of symbol variation) in the notice effect execution data for sound effects associated with the respective notice effect patterns YP1 to YP4. It is shown that a sound effect ("Hit, I win") is output from the speaker 18 at the timing) to execute the jackpot notice.
[0043]
And the pachinko machine 10 of this embodiment is comprised so that the said jackpot notice can be continuously performed ranging over several symbol combination games (between games). Hereinafter, the notice that the jackpot notice is continuously executed is referred to as “continuous notice (continuous production)”. In the continuous notice, the big hit notice with a specific effect is continuously executed from several times of the symbol combination game that is performed before the symbol combination game that may be a big hit effect. In the continuous notice, one big hit notice is executed during one symbol combination game. In this embodiment, the content of a specific effect continuously performed as a big hit notice in a plurality of symbol combination games is different. The pachinko machine 10 according to the present embodiment does not realize the continuous notice and the big hit notice when the big hit notice is realized in the symbol combination game several times after the continuous notice appears. In this case, it is possible to execute a continuous notice when the continuous notice ends without being a big hit. In the present embodiment, the continuous notice in the case of the loss is also referred to as “gase continuous notice”.
[0044]
Hereinafter, a process performed by the main control board 26 (main CPU 26a) to execute a big hit notice (continuous notice) will be described.
In addition to the big hit determination value “7, 349, 919”, the notice determination value is stored in the ROM 26 b of the main control board 26. The notice determination value is determined from numerical values that can be taken by the jackpot random number in the same manner as the jackpot determination value. In this embodiment, the notice determination value is defined as three values “7, 349, 919”. The advance notice determination value “7, 349, 919” is set to be the same value as the big hit determination value “7, 349, 919”. In other words, the notice determination value is not set to a value different from the value set as the jackpot determination value. Hereinafter, the notice determination value stored in the ROM 26b is referred to as a “main determination value”.
[0045]
Then, the main CPU 26a determines whether or not the big hit notification is executable in the main side notification determination process shown in FIG. 6 (hereinafter, this determination is referred to as “main side determination”). The “determination of whether or not the big hit notification can be executed” means whether or not the sub control means constituted by the overall control board 30 (overall CPU 30a) and each of the control boards 27 to 29 (each sub CPU 27a to 29a) executes the big hit announcement. Is determined. The main CPU 26a determines whether the main side is possible or not when an input of a detection signal from the start winning a prize opening sensor SE1 is performed. More specifically, immediately after reading the value of the big hit random number (that is, at the time of winning detection), the main CPU 26a compares the read big hit random number value with the main determination value to determine whether or not the main side is acceptable. In other words, the main-side possibility determination is performed at a timing (different determination timing) different from the jackpot determination performed immediately before the start of the symbol combination game based on the winning detection.
[0046]
In step S10 of FIG. 6, the main CPU 26a determines whether or not the value of the big hit random number read when the winning is detected matches the main determination value (notice determination value). For example, if the value of the jackpot random number read upon winning detection is “7”, it is determined that it matches the main determination value “7”. If the value of the jackpot random number read is “100”, the main determination value “7” is determined. , 349, 919 ". Note that the value of the jackpot random number read at the time of winning detection is stored in a predetermined storage area of the RAM 26c until the jackpot determination is performed. If the determination result in step S10 is negative (the value of the big hit random number and the main determination value do not match), the main CPU 26a determines whether or not to execute the big hit notice and ends the main side notice determination process.
[0047]
On the other hand, if the determination result in step S10 is affirmative (the value of the big hit random number matches the main determination value), the main CPU 26a determines whether or not to execute the big hit notice, and further increases the number of reserved memories at that time (when winning is detected). Determination is made (step S11). At this time, the number of reserved memories to be determined is the number of reserved memories after rewriting set in the RAM 26c in the reserved memory number processing (FIG. 5). According to the number of reserved storage determined in step S11, the number value Y1 of jackpot notice is determined. Then, the main CPU 26a sets a control command (hereinafter referred to as “notice command”) for instructing the determined jackpot notice number value Y1 to the overall CPU 30a of the overall control board 30 in the RAM 26c (step S12). . Thereafter, the main CPU 26a ends the main-side notice determination process and outputs the notice command set in the RAM 26c to the general CPU 30a. The notice command becomes a notice signal.
[0048]
If the number of reserved memories determined in step S11 is 2 or more and less than or equal to the upper limit of the number of reserved memories (4 or less in the present embodiment), continuous notice is given. For example, when the number of reserved memories is “3”, the jackpot notice can be executed in three symbol combination games, and when the jackpot notice is executed, the jackpot notice is continued three times. In the present embodiment, the main CPU 26a is configured to function as a main side notice determination unit and a notice signal output unit, and the jackpot notice number of times Y1 is the number of executions of the notice effect determined by the main side notice determination unit. 1 execution times.
[0049]
Next, a process performed by the overall control board 30 (the overall CPU 30a) to execute a big hit announcement (continuous announcement) will be described.
The overall CPU 30a of the overall control board 30 sequentially updates the value of the random number for effect determination (hereinafter referred to as “effect random number”) every predetermined cycle, and sets the updated value in the setting area of the RAM 30c before the update. The value of is rewritten. In the present embodiment, the numerical values that the production random numbers can take are determined to be 0 to 250 (a total of 251 different integers). The ROM 30b stores an execution determination value and a notice determination value. The execution determination value and the notice determination value are determined from numerical values that the effect random number can take. In the present embodiment, the execution determination value is defined as 200 values “0 to 199”, while the notice determination value is defined as one value “11”. Hereinafter, the notice determination value stored in the ROM 30b is referred to as a “sub determination value”.
[0050]
Then, the overall CPU 30a executes a sub-side notice determination process shown in FIG. 7 and a notice effect pattern determination process shown in FIG. In the sub-side notice determination process, the overall CPU 30a determines whether or not to execute a big hit notice by inputting a notice command and a hold designation command (hereinafter, this determination is referred to as “execution determination”). Further, in the sub-side notice determination process, the general CPU 30a determines the number of notice effects F1 based on the number of times Y1 of the jackpot notice designated by the notice command or the jackpot designated by the hold designation command according to the determination result of the execution decision. Any one of the notice performance times F2 based on the notice number Y2 is set in the RAM 30c as setting means.
[0051]
Hereinafter, the sub-side notice determination process will be described with reference to FIG.
The overall CPU 30a determines whether or not a notice command has been input (step S20). If this determination result is affirmative (input), the overall CPU 30a reads the value of the effect random number from the RAM 30c (step S21). Subsequently, the overall CPU 30a determines whether or not the read effect random number value matches the execution determination value (step S22). For example, if the value of the read effect random number is “10”, it is determined to match the execution determination value “10”, and if the value of the read effect random number is “200”, it matches the execution determination value “0 to 199”. Judge that not. If this determination result is negative (the value of the production random number and the execution determination value do not match), the overall CPU 30a determines not to execute the jackpot notice and ends the sub-side notice determination process. On the other hand, when the determination result of step S22 is affirmative (the value of the effect random number matches the execution determination value), the overall CPU 30a determines to execute the jackpot notice and proceeds to step S23. That is, even when a notice command is input, there is a case where a big hit notice is executed and a case where it is not executed. The processing in steps S21 and S22 is an execution determination performed by inputting a notice command.
[0052]
The overall CPU 30a that has proceeded to Step S23 determines whether or not the notice effect number of times F2 is “0”. The notice effect number of times F2 is the number of executions of the jackpot notice set in the RAM 30c based on the result of the execution determination performed by the overall CPU 30a by the input of the hold designation command. In step S23, the overall CPU 30a determines whether or not the notice effect number of times F2 is set in the RAM 30c. That is, when the number of notice effects F2 indicates a value other than “0”, it is determined that the number of notice effects F2 is set, while when the number of notice effects F2 is “0”, the number of notice effects F2 is set. It is determined that is not set. If the determination result in step S23 is affirmative (F2 = 0), the overall CPU 30a then uses the jackpot notice count value Y1 specified by the notice command to set the notice effect number F1 in a predetermined setting area of the RAM 30c. Set (step S25). For example, when the jackpot notice count value Y1 is “3”, the overall CPU 30a sets “3” to the notice effect count F1. In step S25, the overall CPU 30a has set the number of executions of the jackpot notice determined in the main notice determination process.
[0053]
On the other hand, if the determination result of step S23 is negative (F2 ≠ 0), the overall CPU 30a resets the number of notice effects F2 (step S24), and sets the number of notice effects F1 in step S25. In this embodiment, the general CPU 30a resets the previously set number of notice effects F2 when the notice effect number F1 is set based on the input of the notice command in a state where the notice effect number F2 is set in the RAM 30c. The notice effect number of times F1 is newly set in the RAM 30c. As a result, the jackpot notice according to the notice effect number of times F1 is preferentially executed. Then, the overall CPU 30a that has set the number of notice effects F1 ends the sub-side notice determination process.
[0054]
On the other hand, if the determination result of step S20 is negative (not input), the overall CPU 30a determines whether or not a hold designation command has been input (step S26). If this determination result is negative (not input), the overall CPU 30a ends the sub-side notice determination process. On the other hand, if the determination result of step S26 is affirmative (input), the overall CPU 30a determines whether or not the number of reserved memories has increased (step S27). In step S27, the overall CPU 30a compares the previous hold designation command set in the RAM 30c with the current hold designation command, and whether the current hold designation command is output by addition of the hold memory number or by subtraction of the hold memory number. Determine whether it was output. For example, if a hold 1 designation command (previous) is set in the RAM 30c when a hold 2 designation command is input, the pending hold 2 designation command is added with the number of pending memories by the pending memory number processing (FIG. 5). In this case, the number of reserved memories has increased. On the other hand, if a hold 3 designation command (previous) is set in the RAM 30c when the hold 2 designation command is input, the hold 2 designation command that has been entered has been subtracted from the number of held memories by the start of the symbol combination game. In this case, the number of reserved memories is reduced. Then, if the determination result of step S27 is negative (the number of reserved memories decreases), the overall CPU 30a ends the sub-side notice determination process.
[0055]
On the other hand, if the determination result of step S27 is affirmative (the number of reserved memories increases), the overall CPU 30a reads the value of the effect random number from the RAM 30c (step S28). Subsequently, the overall CPU 30a determines whether or not the read effect random number value matches the sub determination value (notice determination value) (step S29). For example, if the value of the effect random number read is “11”, it is determined that it matches the sub determination value “11”, and if the value of the effect random number read is “100”, it does not match the sub determination value “11”. judge. If the determination result in step S29 is negative (the effect random number value does not match the sub determination value), the overall CPU 30a determines not to execute the jackpot notification and ends the sub side notification determination process. The processing in steps S28 and S29 is an execution determination performed by inputting a hold designation command.
[0056]
On the other hand, if the determination result in step S29 is affirmative (the value of the production random number matches the sub determination value), the overall CPU 30a determines to execute the jackpot notice, and the number of reserved memories specified by the input hold designation command Is determined (step S30). The number value Y2 of the jackpot notice is determined according to the number of reserved storage determined in step S30. Subsequently, the overall CPU 30a determines whether or not the notice effect number of times F1 is “0” (step S31). In step S31, the overall CPU 30a determines whether or not the notice effect number of times F1 is set in the RAM 30c. In other words, when the number of notice effects F1 indicates a value other than “0”, it is determined that the number of notice effects F1 is set, while when the number of notice effects F1 is “0”, the number of notice effects F1. It is determined that is not set.
[0057]
If the determination result in step S31 is affirmative (F1 = 0), the overall CPU 30a sets the notice effect number of times F2 in a predetermined setting area of the RAM 30c using the jackpot notice number value Y2 (step S32). For example, when the jackpot notice count value Y2 is “4”, the overall CPU 30a sets “4” as the notice effect count F2. In step S32, the overall CPU 30a sets the number of executions of the jackpot notice determined in the sub-side notice determination process. On the other hand, if the determination result of step S31 is negative (F1 ≠ 0), the overall CPU 30a ends the sub-side notice determination process. That is, the general CPU 30a invalidates the jackpot notice count value Y2 determined in the processes of steps S28 to S30 without resetting the notice effect number F1 because the notice effect number F1 has already been set. In the present embodiment, when the number of notice effects F1 is set, the jackpot notice (realized jackpot notice) corresponding to the notice effect number F1 is preferentially executed. In the present embodiment, the overall CPU 30a is configured to function as a notice determination unit and an execution count setting means by performing the sub-side notice determination process, and the jackpot notice number Y2 determined by the notice determination means is determined by the notice determination unit. This is the second execution number that is the number of executions. Further, in the present embodiment, the general CPU 30a serves as an execution determination unit that determines whether or not to execute a big hit notification when a notification command is input.
[0058]
As described above, in this embodiment, the main CPU 26a of the main control board 26 determines whether or not the big hit notice can be executed. Then, the general CPU 30a of the general control board 30 determines whether or not to execute the jackpot notice when the notice command or the hold designation command is input. When it is determined that the jackpot notice is to be executed, the notice effect number F1 or the number of notice effects One of F2 is set in the RAM 30c. The notice effect number of times F1 is set based on the determination result of the main side availability determination using the main determination value set to the same value as the jackpot determination value, and is therefore set when the jackpot determination is made in the jackpot determination. It will be. Therefore, when 2 or more are set as the number of notice effects F1, the big hit notice is executed every time the symbol combination game for the number of times indicated by the notice effect number F1 is performed, and the notice is continuously displayed. In the symbol combination game several times ahead, the jackpot notice is realized and becomes a big hit. On the other hand, the notice effect number of times F2 is set in a state where the number of notice effect effects F1 is not set, that is, in the case where a determination is made that the big hit is determined. Therefore, when 2 or more are set as the number of notice effects F2, the big hit notice is executed every time the symbol combination game corresponding to the number of times indicated by the notice effect number F2 is performed. The jackpot notice ends without being realized, and the game ends. That is, the main CPU 26a determines whether or not to make a jackpot notice (continuous notice) appear in the case of a big hit, and the general CPU 30a determines whether or not to make a jackpot notice (gasse continuous notice) in the case of a loss. decide.
[0059]
Next, the notice effect pattern determination process will be specifically described based on FIGS.
In the notice effect pattern determination process, the general CPU 30a determines the notice effect pattern and executes the jackpot notice if the notice effect number F1 or the notice effect number F2 is set in the RAM 30c when the effect pattern designation command is input. Take control. When the notice effect number F1 or the notice effect number F2 is set in the RAM 30c, the number of executions of the big hit notice (notice effect) is determined. In the present embodiment, the control for executing the jackpot notice performed by the overall CPU 30a is to instruct the sub CPUs 27a to 29a to execute the jackpot notice. Further, when determining the notice effect pattern, the overall CPU 30a counts the notice number C1 or the notice number C2 as the number of times that the big hit notice is executed. The number of notices C1 and C2 indicates how many jackpot notices are executed in a state where the number of notice effects F1 or the number of notice effects F2 is set.
[0060]
The four types of notice effect patterns YP1 to YP4 are stored in the ROM 30b in association with the number of notices C1 and C2 in advance (FIG. 4). The number of notices “1” is a notice effect pattern YP1, the number of notices “2” is a notice effect pattern YP2, the number of notices “3” is a notice effect pattern YP3, and the number of notices “4” is a notice effect pattern YP4. Are associated with each other. Therefore, when the general CPU 30a determines the notice effect patterns YP1 to YP4 based on the notice counts C1 and C2, the number of notice characters appearing every time the jackpot notice is executed increases, and the effect contents of the jackpot notice are stepwise. Change.
[0061]
Further, in this embodiment, when the general CPU 30a inputs an effect pattern designation command, even if the notice effect number of times F1 or the notice effect number of times F2 is not set, a predetermined condition (determination result in steps S54 and S55 in FIG. 9). Is established), a notice effect pattern is determined and control for executing a big hit notice is performed. Further, in the present embodiment, the general CPU 30a limits the execution of the jackpot notice when a predetermined condition (the determination result in step S48 of FIG. 8 is negative) is satisfied when the notice effect number of times F2 is set. .
[0062]
In the notice effect pattern determination process shown in FIGS. 8 and 9, the overall CPU 30a determines whether or not an effect pattern designation command has been input (step S40). If the determination result is negative (not input), the overall CPU 30a ends the notice effect pattern determination process. On the other hand, if the determination result in step S40 is affirmative (input), the overall CPU 30a determines whether or not the number of notice effects F1 is greater than “0” (step S41). In step S41, the overall CPU 30a determines whether or not the notice effect number of times F1 is set in the RAM 30c. If the determination result in step S41 is affirmative (F1> 0), the overall CPU 30a decrements the number of notice effects F1 by 1, and newly sets the number of notice effects F1 after rewriting in the RAM 30c (step S42). For example, when “3” is set in the number of notice effects F1, “1” is subtracted from “3” and “2” is set as the new number of notice effects F1.
[0063]
Subsequently, the overall CPU 30a adds 1 to the number of notices C1, and newly sets the number of notices C1 after rewriting in the RAM 30c (step S43). For example, when “0” is set as the number of notices C1, “1” is added to “0” to set “1” as the new number of notices C1. Next, the overall CPU 30a resets the notice count C2 (step S44). That is, the general CPU 30a sets the notice effect number F1 in the RAM 30c, determines the notice effect pattern according to the notice effect number F1, and performs a control to execute the jackpot notice. Set to “0”. Then, the overall CPU 30a determines one notice effect pattern according to the notice count C1 (step S45). In step S45, the overall CPU 30a determines a notice effect pattern associated with the notice count C1. For example, when the number of notices C1 is “1”, the general CPU 30a determines the notice effect pattern YP1 because the first jackpot notice is executed. When the number of notices C1 is “2”, the general CPU 30a determines the second time. The notice effect pattern YP2 is determined because the big hit notice is executed. Subsequently, the overall CPU 30a sets the RAM 30c to output a notice effect pattern designation command for designating the decided notice effect pattern to the sub CPUs 27a to 29a of the control boards 27 to 29 (step S46). Thereafter, the overall CPU 30a ends the notice effect pattern determination process and outputs a notice effect pattern designation command set in the RAM 30c.
[0064]
On the other hand, if the determination result of step S41 is negative (F1 = 0), the overall CPU 30a determines whether or not the number of times of notice effect F2 is greater than “0” (step S47). In step S47, the overall CPU 30a determines whether or not the notice effect number of times F2 is set in the RAM 30c. If the determination result in step S47 is affirmative (F2> 0), the overall CPU 30a determines whether or not the number of notices C2 is smaller than a predetermined set number of consecutive times (number of consecutive notice effects) n1 (step S48). ). In this embodiment, the set number of consecutive times n1 is set to “4” and is set in the ROM 30b. If the determination result in step S48 is affirmative (C2 <4), the overall CPU 30a subtracts 1 from the number of notice effects F2, and newly sets the number of notice effects F2 after rewriting in the RAM 30c (step S49). For example, when “4” is set as the number of notice effects F2, “1” is subtracted from “4” to set “3” as the new number of notice effects F2. Subsequently, the overall CPU 30a adds 1 to the number of notices C2, and newly sets the number of notices C2 after rewriting in the RAM 30c (step S50). For example, when “0” is set for the number of notices C2, “1” is added to “0” and “1” is set as the new number of notices C2. Then, the overall CPU 30a determines one notice effect pattern according to the number of notices C2 (step S51). In step S51, the overall CPU 30a determines a notice effect pattern associated with the notice count C2. For example, as described above, when the number of notices C2 is “1”, the general CPU 30a determines the notice effect pattern YP1, and when the number of notices C2 is “2”, the general CPU 30a determines the notice effect pattern YP2. Then, the overall CPU 30a proceeds to step S46 and sets a notice effect pattern designation command for designating the decided notice effect pattern in the RAM 30c.
[0065]
On the other hand, if the determination result in step S48 is negative (C2 ≧ 4), the overall CPU 30a resets the number of notice effects F2 (F2 = 0) (step S52) and resets the number of notices C2 (C2 = 0). (Step S53). That is, the overall CPU 30a determines in step S48 that the number of notices C2 has reached the set number of consecutive times n1, and thereafter resets the number of notice effects F2 so that the big hit notice is not continuously executed. Then, the overall CPU 30a ends the notice effect pattern determination process without determining the notice effect pattern. In this case, the notice effect pattern designation command is not output to the sub CPUs 27a to 29a of the control boards 27 to 29.
[0066]
As described above, the overall CPU 30a determines the notice effect pattern in order to perform control for executing the big hit notice while the notice effect number F1 or the notice effect number F2 is set (between F1> 0 or F2> 0). . Then, the overall CPU 30a outputs a notice effect pattern designation command for designating the decided notice effect pattern to each of the sub CPUs 27a to 29a. Further, each of the sub CPUs 27a to 29a reads the notice effect execution data corresponding to the designated notice effect pattern, and performs control based on the notice effect execution data. In other words, each of the sub CPUs 27a to 29a performs the variable display device 21 and the game board lamp 17 so that the jackpot notice is executed every time the symbol combination game corresponding to the number of notice effects F1 or the number of notice effects F2 is performed. And the speaker 18 are respectively controlled. As a result, the jackpot notice is continuously executed across a plurality of symbol combination games.
[0067]
On the other hand, the general CPU 30a restricts (regulates) the execution of the big hit notice when the notice number C2 reaches the set continuous number n1 in a state where the notice effect number F2 is set. That is, when the process is performed in the flow of steps S48 → S52 → S53, the overall CPU 30a does not determine the notice effect pattern, and thus forcibly ends the execution of the big hit notice that results in losing. Since the set number of consecutive times n1 is set to “4”, the resulting big hit notice is not continuously executed more than 4 times (5 times or more).
[0068]
On the other hand, if the determination result of step S47 is negative (F2 = 0), the overall CPU 30a determines whether or not the number of notices C2 is greater than a preset number of notices for advance notice (number of notice effects) n2 (the number of notices C2 is a preset notice). It is determined whether or not the number of times n2 has been exceeded (step S54). In the present embodiment, the setting notice count n2 is set to “0” and is set in the ROM 30b. In step S54, the overall CPU 30a determines whether or not the jackpot notice is executed more times than the preset notice number n2 when the previous symbol combination game is performed. The number of times greater than the number of times n2 (the number of times exceeding the set notice number of times n2) is the predetermined number. If the determination result in step S54 is affirmative (C2> 0) (that is, if one or more jackpot notices have been executed), the overall CPU 30a receives a jackpot for the effect pattern specified by the input effect pattern specification command. It is determined whether or not the production pattern is for production (step S55). In the present embodiment, it is determined whether or not the effect pattern specified by the effect pattern specifying command is the effect pattern P1 or the effect pattern P2. If the determination result of step S55 is affirmative, the overall CPU 30a adds 1 to the number of notices C2, as in step S50, and newly sets the number of notices C2 after rewriting in the RAM 30c (step S56). Then, similarly to step S51, the overall CPU 30a determines one notice effect pattern according to the number of notices C2 (step S57). That is, the overall CPU 30a determines the notice effect pattern associated with the notice number C2. Thereafter, the overall CPU 30a resets the number of notices C2 (step S58), proceeds to step S46, and sets a notice effect pattern designation command for designating the decided notice effect pattern in the RAM 30c.
[0069]
As described above, the overall CPU 30a performs control for executing the big hit announcement if the predetermined condition is satisfied even when the notice effect number F1 or the notice effect number F2 is not set in the RAM 30c. In other words, when the previous notice combination times F1 and F2 are not set, the jackpot notice more times than the set notice number n2 is executed when the previous symbol combination game is performed, and the current symbol combination game is executed. In the case of a big hit effect (steps S54 → S55 → S56 → S57), a notice effect pattern is determined. Then, the overall CPU 30a outputs a notice effect pattern designation command for designating a notice effect pattern to each of the sub CPUs 27a to 29a. As a result, following the previous symbol combination game (continuing), a big hit announcement is also executed in the current symbol combination game. The processing flow of the steps S54 → S55 → S56 → S57 is the same as the symbol combination game when the symbol combination game that is executed immediately after the symbol combination game in which the jackpot notice is executed but results in losing is a big hit. It will be a process to execute a jackpot notice. When the number of notice effects F1 or the number of notice effects F2 is not set in the RAM 30c (when the determination results in steps S41 and S47 are both negative), the number of executions of the jackpot notice (notice effect) is determined. Will not be. In the present embodiment, when the predetermined condition is satisfied (when both steps S54 and S55 are affirmed), “0” is set to the number of notices C2 in step S58.
[0070]
On the other hand, if the determination result in step S54 is negative (C2 = 0), or if the determination result in step S55 is negative (not P1 or P2), the overall CPU 30a resets the number of notices C1 and the number of notices C2 ( Step S59). That is, in this case, since the predetermined condition for executing the jackpot notice in the present symbol combination game following the previous symbol combination game is not satisfied, the number of notices C1 and the number of notices C2 are set in step S59. Reset. Then, the overall CPU 30a ends the notice effect pattern determination process without determining the notice effect pattern.
[0071]
In the present embodiment, the overall CPU 30a performs a notice effect pattern determination process, thereby counting means (first counting means and second counting means), number determination means, effect determination means, notice control means, continuous number determination. It is comprised so that it may function as a means and an execution restriction means. In the present embodiment, the overall CPU 30a serves as a notice effect pattern determining means for determining a notice effect pattern.
[0072]
Next, in the pachinko machine 10 configured as described above, a mode in which continuous notice is executed will be described with reference to FIGS. 10 to 12, numbers attached to the lamps 25a to 25d of the reserved ball number display 25 indicate the order of the game balls won in the start winning opening 23, and 1, 2, 3, and 4, respectively, This corresponds to the first, second, third, and fourth symbol combination games. 10 to 12, the lighting state of each of the lamps 25a to 25d of the reserved ball number display 25 is indicated by “downward slanted line”, the extinguishing state is indicated by “blank”, and the symbol variation display is indicated by “down arrow”. ".
[0073]
First, a mode in which the continuous notice is executed will be described with reference to FIG.
In FIG. 10A, a symbol combination game is performed on the visible display portion H of the variable display device 21. This symbol combination game is performed in a state where the number of reserved memories is “1”. Also, the notice performance times F1, F2 and the notice times C1, C2 are not set (F1 = 0, F2 = 0, C1 = 0, C2 = 0). When a game ball is newly won during the symbol combination game (FIG. 10 (a)), the main CPU 26a performs the reserved memory number process (FIG. 5) and turns on the hold 2 lamp 25b (FIG. 10 (b)). )), A suspension 2 designation command is output to the overall CPU 30a. Further, at the time of winning, the main CPU 26a performs main side notice determination processing (FIG. 6). If it is determined in the main side notice determination process whether or not the big hit notice is to be executed, no notice command is output to the overall CPU 30a. When the overall CPU 30a that has input the hold 2 designation command determines to execute the big hit announcement in the sub-side announcement determination process (FIG. 7), the overall CPU 30a sets “2” as the number of announcement effects F2.
[0074]
Then, immediately before the start of the first and second symbol combination games (FIGS. 10C and 10D), processing for starting each game is performed, and the overall CPU 30a inputs an effect pattern designation command. . Each time the general CPU 30a inputs an effect pattern designation command, the notice effect number F2 is set in the notice effect pattern determination process (FIGS. 8 and 9), and thus determines the notice effect pattern. Specifically, the general CPU 30a determines the notice effect pattern YP1 when an effect pattern designation command corresponding to the first symbol combination game is input, and notifies when the effect pattern designation command corresponding to the second symbol combination game is inputted. The effect pattern YP2 is determined. In addition, in the notice effect pattern determination process, the general CPU 30a decrements the notice effect number F2 by 1 and adds 1 to the notice number C2 every time an effect pattern designation command is input.
[0075]
As a result, in the first symbol combination game (FIG. 10 (c)) and the second symbol combination game (FIG. 10 (d)), a jackpot notice is executed after the start of each game. That is, in the first symbol combination game, the notice character K1 appears in the visible display portion H, and the game board lamp 17 blinks in synchronization with the appearance of the notice character K1, and the speaker 18 “wins, hits! A jackpot notice (first time) is output in which a sound effect is output. In the second symbol combination game, the notice characters K1 and K2 appear in the visible display portion H, and the game board lamp 17 blinks in synchronization with the appearance of the notice characters K1 and K2. A jackpot notice (second time) is output in which a sound effect of “Oh, I win” is output. At the time when the second symbol combination game is performed, the notice performance number F2 is “0”, and the notice number C2 is “2”. Thereafter, a combination of deviations (for example, [567]) in the second symbol combination game is derived in the visible display portion H, and the deviation is determined by the input of all symbol stop commands (FIG. 10 (e)). In this state, the continuous notice (two big hit notices) started from the first symbol combination game has not been realized.
[0076]
On the other hand, in FIG. 10B, when it is determined in the main-side notice determination process that the jackpot notice can be executed, the general CPU 30a inputs a notice command (instructing the number of reserved storage “2”), and the sub-side notice Perform a notice determination process. When the general CPU 30a determines to execute the jackpot notice in the sub-side notice determination process, the general CPU 30a sets “2” to the number of notice effects F1. Then, every time the production pattern designation command is input, the overall CPU 30a determines the announcement production pattern because the number of announcement productions F1 is set in the announcement production pattern determination process. In addition, in the notice effect pattern determination process, the overall CPU 30a subtracts one notice effect number F1 and adds one notice number C1 every time an effect pattern designation command is input. As a result, in the first symbol combination game (FIG. 10 (c)) and the second symbol combination game (FIG. 10 (d)), the jackpot notice is executed as described above. Thereafter, a combination of big hits (for example, [777]) in the second symbol combination game is derived in the visual display portion H, and the big hit is determined by the input of all symbol stop commands (FIG. 10 (f)). In this state, a continuous notice (two big hit notices) started from the first symbol combination game has been realized.
[0077]
Next, with reference to FIG. 11, a description will be given of a mode in which, when the notice effect number F1 or the notice effect number F2 is not set, the big hit notice is executed following the previous symbol combination game, and the continuous notice is executed. In addition, in the following description, the description which is the same as the aspect in which the continuous notice mentioned above is performed omits or simplifies the overlapping description.
[0078]
11A and 11B, the game ball is newly won during the symbol combination game of FIG. 11A (winning corresponding to lighting of the hold 2 lamp 25b shown in FIG. 11B). It is shown. At the time of winning the prize, whether or not to execute the jackpot notice is determined in the main-side notice determination process, and it is determined to execute the jackpot notice in the sub-side notice determination process. In addition, “2” is set for the number of notice effects F2, and the number of notices C2 is “0”. Then, immediately before the start of the first symbol combination game (FIG. 11C), a process for starting the game is performed, and the general CPU 30a determines the notice effect pattern when the effect pattern designation command is input. . The overall CPU 30a subtracts 1 from the number of notice effects F2 and adds 1 to the number of notices C2 in the notice effect pattern determination process. At this time point, the number of notice effects F2 is subtracted from “2” to “1”, and the number of notices C2 is added to “0” to be “1”. In the first symbol combination game (FIG. 11 (c)), the jackpot notice (first time) is executed based on the notice effect pattern YP1 as described above.
[0079]
When the game ball is newly won during the first symbol combination game (winning corresponding to the lighting of the hold 2 lamp 25b shown in FIG. 11D), the main CPU 26a performs main side notice determination processing at the time of winning. Do. When it is determined in the main-side notice determination process that the big hit notice can be executed, the overall CPU 30a inputs a notice command (instructing the number of stored storage “2”), and performs the sub-side notice determination process. At this time, if the general CPU 30a determines not to execute the jackpot notice in the sub-side notice determination process (the determination result in step S22 is negative), the general CPU 30a has the notice effect number of times F2 (“1” at this time). The set state is maintained, and the sub-side notice determination process is terminated. In FIG. 11 (d), when the main CPU 26a determines whether or not to execute the big hit notice in the main side notice determination process, a big hit combination is derived in the third symbol combination game, that is, the big hit effect is obtained. Will be done.
[0080]
Then, immediately before the start of the second symbol combination game (FIG. 11 (e)), a process for starting the game is performed, and the general CPU 30a determines the notice effect pattern when the effect pattern designation command is input. The overall CPU 30a subtracts 1 from the number of notice effects F2 and adds 1 to the number of notices C2 in the notice effect pattern determination process. At this point, the number of notices F2 is subtracted from “1” to “0”, and the number of notices C2 is incremented by “1” to “2”. As a result, neither the notice effect number of times F1 nor the notice effect number of times F2 is set in the RAM 30c. In the second symbol combination game (FIG. 11 (e)), the jackpot notice (second time) is executed based on the notice effect pattern YP2, as described above. Thereafter, a combination of deviations (for example, [567]) is derived in the second symbol combination game in the visual display portion H, and the deviation is determined by inputting all symbol stop commands (FIG. 11 (f)). In the flow from FIG. 11A to FIG. 11F, the continuous notice (two big hit notices) started from the first symbol combination game according to the notice effect number of times F2 has not been realized. .
[0081]
Then, immediately before the start of the third symbol combination game (FIG. 11 (g)), processing for starting the game is performed, and the overall CPU 30a inputs an effect pattern designation command, and in the notice effect pattern determination processing Determine the notice effect pattern. At this time, since the main CPU 26a determines the big hit based on the big hit determination, the general CPU 30a receives an effect pattern designation command for designating an effect pattern for the big hit effect (in the present embodiment, any one of the effect patterns P1 and P2). input. Therefore, the overall CPU 30a determines the notice effect pattern because “2” is set as the notice count C2 and the effect pattern for the big hit effect is designated by the effect pattern designation command. In other words, the general CPU 30a executes the big hit notice in the previous (second) symbol combination game in a state where the notice effects F1 and F2 are not set in the RAM 30c, and the present (third) symbol combination game is executed. Since the conditions for the big hit effect are established, the notice effect pattern is determined. Specifically, at this time, the notice count C2 is incremented by 1 to “2” to become “3”, which is larger than the preset notice count n2, and the notice effect pattern YP3 is determined according to the notice count C2. To do. When the notice effect pattern YP3 is determined, the notice count C2 is reset.
[0082]
Then, in the third symbol combination game (FIG. 11 (g)), following the second symbol combination game, after the start of the third symbol combination game, a jackpot notice (third time) is executed. That is, in the third symbol combination game, the notice characters K1, K2, and K3 appear in the visible display portion H, and the game board lamp 17 blinks in synchronization with the appearance of the notice characters K1, K2, and K3, and the speaker A jackpot notice is output in which a sound effect of “I win, I win” is output from 18. Thereafter, in the visual display portion H, a big winning combination (for example, [777]) is derived in the third symbol combination game, and the big winning is determined by the input of all symbol stop commands (FIG. 11 (h)). In this state, the continuous notice (resulting in three big hit notices) started from the first symbol combination game is realized.
[0083]
Next, a mode in which the execution of continuous notice is restricted will be described with reference to FIG. In addition, in the following description, the description which is the same as the aspect in which the continuous notice mentioned above is performed omits or simplifies the overlapping description.
[0084]
In FIG. 12A, a symbol combination game is performed in the visible display portion H of the variable display device 21. During the symbol combination game, the game ball is newly won (winning corresponding to the lighting of the hold 4 lamp 25d shown in FIG. 12A), and the main side notice determination processing at the time of the prize is not executed. In the sub-side notice determination process, it is decided to execute the jackpot notice. For this reason, “4” is set for the number of notice effects F2, and the number of notices C2 is “0”.
[0085]
A process for starting each game immediately before the start of the first, second, third, and fourth symbol combination games (FIGS. 12B, 12C, 12D, and 12E) is performed. The overall CPU 30a inputs an effect pattern designation command. Each time the general CPU 30a inputs an effect pattern designation command, the notice effect number F2 is set in the notice effect pattern determination process, and therefore the general effect CPU 30a determines the notice effect pattern. Specifically, the general CPU 30a determines the notice effect pattern YP1 when an effect pattern designation command corresponding to the first symbol combination game is input, and notifies when the effect pattern designation command corresponding to the second symbol combination game is inputted. The effect pattern YP2 is determined. Further, the general CPU 30a determines the notice effect pattern YP3 when an effect pattern designation command corresponding to the third symbol combination game is inputted, and when the effect pattern designation command corresponding to the fourth symbol combination game is inputted, the notice effect pattern YP4. To decide. In addition, in the notice effect pattern determination process, the general CPU 30a decrements the notice effect number F2 by 1 and adds 1 to the notice number C2 every time an effect pattern designation command is input.
[0086]
As a result, in the first symbol combination game (FIG. 12B), the second symbol combination game (FIG. 12C), and the third symbol combination game (FIG. 12D), After the start, the jackpot notice (first to third times) is executed as described above. In the fourth symbol combination game (FIG. 12E), a big hit notice (fourth) is executed after the game is started. In the fourth symbol combination game, the notice characters K1 to K4 appear in the visible display portion H, and the game board lamp 17 blinks in synchronization with the appearance of the notice characters K1 to K4. A jackpot notice is output with a sound effect of "Hit!" The notice performance number F2 at the time when the fourth symbol combination game is performed is “0”, and the notice number C2 is “4”.
[0087]
Then, when a new game ball is won during the fourth symbol combination game, the main CPU 26a performs the hold memory number process and holds the hold 1 lamp 25a (FIG. 12 (f)), and holds it in the general CPU 30a. 1 Specify command is output. Further, at the time of winning, the main CPU 26a performs main side notice determination processing. If it is determined in the main side notice determination process whether or not the big hit notice is to be executed, no notice command is output to the overall CPU 30a. Then, when the general CPU 30a that has input the hold 1 designation command determines to execute the jackpot notice in the sub-side notice determination process, the general CPU 30a sets “1” to the number of notice effects F2.
[0088]
Then, immediately before the start of the fifth symbol combination game (FIG. 12G), processing for starting the game is performed, and the overall CPU 30a inputs an effect pattern designation command. At this time, the overall CPU 30a is set to “1” for the number of notices effect F2, but since the number of notices C2 is “4” at this time (because it has reached the set number of consecutive times n1), Limit the execution of the jackpot notice. That is, the overall CPU 30a does not determine the notice effect pattern. Then, the overall CPU 30a resets the notice performance number F2 (“1”) and the notice number C2 (“4”). As a result, in the visible display portion H, the execution of the big hit announcement is restricted, and thus the fifth symbol combination game is started without the big hit announcement being executed (FIG. 12 (g)). Also, in the fifth symbol combination game, a combination of deviations (for example, [123]) is derived, and the deviation is determined by inputting all symbol stop commands (FIG. 12 (h)).
[0089]
Therefore, according to the present embodiment, the following effects can be obtained.
(1) When the previous symbol combination game is executed and the jackpot notice is executed more times than the set notice number of times n2, and the current symbol combination game is a jackpot effect, the notice effect number F1, Even if F2 is not set, a big hit notice is executed in the present symbol combination game following the previous game. Therefore, when the current symbol combination game is a jackpot effect, the previous symbol number F1 or the notification effect number F2 which is an opportunity for executing the jackpot notice in the symbol combination game is not set. The jackpot notice can be executed following the combination game. Therefore, immediately after the symbol combination game in which the jackpot notice is executed but eventually results in a loss, it is possible to prevent the symbol combination game from being executed without executing the jackpot notice and to execute the jackpot notice at an appropriate timing. You can try to improve your interest.
[0090]
(2) Further, since the big hit announcement is performed at an appropriate timing, the player does not feel uncomfortable with the game performance of the pachinko machine 10 and can improve the interest. Therefore, it is possible to suppress the expectation for the big hit notice of the player from fading, and to improve the expectation of the big hit that the player holds due to the appearance of the big hit notice.
[0091]
(3) A condition for continuously executing the jackpot notice was added. Therefore, the jackpot notice can be continuously executed only in a specific case (when the next symbol combination game becomes a jackpot effect after the jackpot notice is executed in the present embodiment). Therefore, as in the conventional case, it is possible to create a continuous notice in which the big hit notice is realized and a continuous notice in which the big hit notice is not realized, and it is possible to improve the interest.
[0092]
(4) The overall control board 30 counts the number of notices C2 every time the process of determining the notice effect pattern is performed based on the notice effect number of times F2, and when the previous symbol combination game is performed by the notice number of times C2. It is determined whether or not the jackpot notice is executed more times than the preset notice number n2. Therefore, when the condition for continuously executing the jackpot notice is established, the overall control board 30 determines the number of jackpot notices to be executed continuously from the value indicated by the number of notices C2. can do. Then, the content of the jackpot notice performed in the current symbol combination game can be determined so as to follow the content of the jackpot notice performed in the previous symbol combination game. Therefore, even if the big hit notice is continuously executed, the contents of the big hit notice can be changed step by step in a predetermined order. Further, by counting the number of notices C2, it is possible to change the effect of the big hit notice when the big hit notice is continuously executed according to the number of notices C2.
[0093]
(5) Further, the counted number of notices C2 is not limited to determining whether or not to continuously execute the jackpot notice, but whether to limit the number of times that the jackpot notice is continuously executed according to the notice effect number of times F2. It can also be used to determine whether or not. When the number of notices C2 reaches the set number of consecutive times n1, the execution of the jackpot notice is restricted. The jackpot notice that is executed in accordance with the number of notice effects F2 is a jackpot notice that results in a gap. As a result, if the jackpot notice is continuously executed, the player's expectation for the jackpot notice is reduced. At the same time, it causes discomfort to the player. Therefore, by limiting the number of times that the jackpot notice is continuously executed according to the number of notices C2, it is possible to suppress the frequent appearance of the jackpot notice (Gasse continuous notice) that will result in losing, improving the interest Can be achieved.
[0094]
(6) The overall control board 30 is configured to limit the execution of the jackpot notice when the notice number C2 reaches the set number of consecutive times n1. Therefore, until the set number of consecutive times n1 is reached, it is possible to give the player a sense of expectation that a big hit will be made by executing the jackpot notice, but when the set number of consecutive times n1 is reached, the execution of the jackpot notice is surely limited. be able to. Therefore, a balanced game effect (continuous notice) can be realized. Further, since the overall control board 30 restricts the execution of the big hit notice, when the big hit notice is executed in each of the control boards 27 to 29 (in a plurality of effect control units), the big hit in all the control boards 27 to 29 is performed. Execution of the notice can be surely restricted. Therefore, only one of the control boards 27 to 29 does not execute the big hit notice.
[0095]
(7) When the condition for continuously executing the jackpot notice is satisfied, the overall control board 30 performs the jackpot notice without determining whether the number of notices C2 has reached the set number of consecutive times n1. The control to be executed was performed. In this case, there is a possibility that the jackpot notice of the number of times exceeding the set number of consecutive times n1 may be executed, but the executed jackpot notice is realized and becomes a big hit. Therefore, when the big hit notice is executed beyond the set number of consecutive times n1, it is possible to make the player recognize that it is a big hit. Therefore, the continuation of the jackpot notice can make the user interested in the number of times the jackpot notice has been continued, and can further enhance the interest.
[0096]
(8) The main control board 26 compares the value of the big hit random number with the main determination value to determine whether or not the main side is acceptable, and the overall control board 30 also determines execution. For this reason, the main control board 26 determines whether or not the big hit notice (or continuous notice) can be executed in the case of the big hit. In other words, the main control board 26 does not determine whether or not to execute a big hit notice (or continuous notice) in the case of a loss. Therefore, the process for executing the big hit notice performed by the main control board 26 is simplified, and the big hit notice (or continuous notice) can be executed without imposing a burden on the main control board 26.
[0097]
(9) The number values Y1 and Y2 of the jackpot notice are determined based on the number of stored memories. Therefore, the jackpot notice can be executed every time the symbol combination game corresponding to the number of times Y1, Y2 of the jackpot notice is performed. Therefore, the big hit notice can be performed continuously without interruption in the middle.
[0098]
(10) The overall control board 30 makes an execution determination in response to an input of a hold designation command. The hold designation command is an existing control command output from the main control board 26, and the overall control board 30 makes an execution determination using the existing control command. Therefore, even when the overall control board 30 makes an execution determination, the main control board 26 having the same configuration as the conventional one can be employed without causing a design change in the main control board 26. Furthermore, since the main control board 26 does not need to output a dedicated control command for the overall control board 30 to perform execution determination, it is possible to suppress an excessive burden on the main control board 26. Further, since the hold designation command is associated with the number of hold memories, the overall control board 30 can set the jackpot notice count value Y2 based on the hold designation command.
[0099]
(11) The general control board 30 further determines whether or not to execute the jackpot notice when the notice command is input (execution determination), and executes the jackpot notice only when this determination result is affirmative. did. Therefore, even when the combination of jackpots finally stops, it is possible to create a case where a jackpot notice (continuous notice) is executed and a case where it is not executed. Therefore, it is possible to impress the player that the big hit notice (continuous notice) is a very special performance. In this determination, the overall control board 30 uses a production random number. For this reason, it is possible to randomly select whether or not to execute the jackpot notice (continuous notice).
[0100]
(12) The general control board 30 sets the notice effect number F1 or the notice effect number F2 using the number value Y1 or the number value Y2 of the jackpot notice, and every time the effect pattern designation command is input, the notice effect number F1 or the notice The number of performances F2 is subtracted and reset. For this reason, information (number of notice effects F1 or number of notice effects F2) necessary to continuously perform the jackpot notice can be managed by the overall control board 30. Therefore, the big hit announcement (or continuous announcement) can be executed without imposing a burden on the main control board 26.
[0101]
(13) The overall control board 30 resets the previously set notice effect number F2 when the notice effect number F1 is newly set based on the input of the notice command in the state where the notice effect number F2 is set. I did it. Therefore, the overall control board 30 can execute a jackpot notice based on the newly set notice effect number of times F1. Therefore, the jackpot notice (or continuous notice) that is realized can be preferentially executed.
[0102]
(14) The overall control board 30 is configured to reset the notice count C2 when execution of the big hit notice is restricted. For this reason, even if the number of notice effects F2 is newly set in the subsequent games, the execution of the big hit notice is not limited by the number of notices C2 counted previously, and until the set number of consecutive times n1 is reached. The jackpot notice (continuous notice) can be executed based on the notice effect number of times F2 set to. In addition, when the execution of the big hit announcement is restricted, the overall control board 30 resets the announcement production frequency F2 together with the announcement frequency C2. Therefore, in the symbol combination game executed after the symbol combination game in which the execution of the jackpot notice is restricted, the jackpot notice is not executed based on the number of notice effects F2 remaining when the execution of the jackpot notice is restricted. Therefore, after the execution of the big hit announcement is restricted, the execution of the big hit announcement can be surely restricted until the announcement number of times F2 is newly set.
[0103]
(15) The general control board 30 is provided, and the general control board 30 distributes a plurality of types of notice effect patterns YP1 to YP4. Therefore, it is possible to diversify the effect contents of the jackpot notice without increasing the number of effect patterns managed by the main control board 26 (stored in the ROM 26b). The jackpot notice is an effect for informing the player in advance of the possibility of a big hit, and the player determines whether or not the jackpot notice (continuous notice) will be executed when the symbol combination game starts. I am interested in whether a big hit notice (continuous notice) with such contents will be executed. Therefore, by providing the overall control board 30 and diversifying the contents of the announcement of the big hit notice, it is possible to further enhance the interest. Further, the overall control board 30 is configured to determine one notice effect pattern and output the same notice effect pattern designation command to each of the control boards 27 to 29. Therefore, each control board 27-29 can perform control of the effect of the big hit notice based on the notice execution data corresponding to the same notice effect pattern. Therefore, the content of the display effect, the content of the light emission effect, and the content of the sound effect in the effect of the jackpot notice are related (synchronized with each other), and the entire effect of the jackpot notice is made uniform (a sense of unity). Can do.
[0104]
(Second Embodiment)
Hereinafter, a second embodiment in which the present invention is embodied in one type of pachinko gaming machine (hereinafter referred to as “pachinko machine”) will be described with reference to FIG.
[0105]
In the present embodiment, conditions for causing a big hit notice to be executed in the current symbol combination game are added after the previous symbol combination game in a state where the number of notice effects F1 and F2 is not set. Specifically, the processing of step S60, step S61, step S62, and step S63 surrounded by a two-dot chain line in FIG. 13 is added.
[0106]
Hereinafter, the processes of steps S60 to S63 performed in the effect content pattern determination process (FIG. 11) in the present embodiment will be described in detail.
If the result of determination in step S55 (determination of whether or not the designated effect pattern is an effect pattern for jackpot effect) is negative, the overall CPU 30a determines whether or not the designated effect pattern is the effect pattern P3. It is determined whether or not (step S60). The effect pattern P3 is an effect pattern in which a reach effect (normal reach effect → super reach effect) developed in two stages is performed as described above. If the determination result in step S60 is affirmative (P3), the overall CPU 30a determines whether the notice count C2 is smaller than the set consecutive count n1 as in step S48 (step S61). When the determination result is affirmative (C2 <4), the overall CPU 30a adds 1 to the number of notices C2, and newly sets the number of notices C2 after rewriting in the RAM 30c (step S62). Subsequently, the overall CPU 30a determines one notice effect pattern according to the number of notices C2, similarly to step S57 (step S63). On the other hand, if the determination result in step S60 is negative (not P3), or if the determination result in step S61 is negative (C2 ≧ 4), the overall CPU 30a proceeds to step S59 and resets the notice counts C1 and C2. To do.
[0107]
In this way, the overall CPU 30a performs control for executing a big hit announcement if a predetermined condition is satisfied even when the number of announcement effects F1 and F2 is not set. That is, when the previous symbol combination game is performed, the jackpot notice is executed more times than the set notice number of times n2, and the current symbol combination game is an outlier effect including a specific reach effect (step S60). → S61 → S62 → S63), the notice effect pattern is determined. Then, the overall CPU 30a outputs a notice effect content pattern designation command for designating the notice effect pattern to each of the sub CPUs 27a to 29a. As a result, following the previous symbol combination game (continuing), a big hit announcement is also executed in the current symbol combination game. The process flow of the steps S60 → S61 → S62 → S63 is performed when a specific reach effect is performed in a symbol combination game that is performed immediately after a symbol combination game in which a jackpot notice is executed but eventually results in a loss. Even in the symbol combination game, it is a process of executing a big hit notice. In the present embodiment, the jackpot notice that is executed when step S60 is affirmed is not realized and is not realized in the same manner as the jackpot notice that is executed in accordance with the number of notice effects F2, so step S62 is executed. 1 is added to the notice count C2. Therefore, when the effect pattern for the big hit effect is specified by the effect pattern specifying command for performing the next symbol combination game, as in the first embodiment, this time following the previous symbol combination game. The jackpot notice is also executed in the symbol combination game.
[0108]
On the other hand, even if the determination result in step S60 is affirmative, the overall CPU 30a does not determine the notice effect pattern if it is determined in step S61 that the number of notices C2 has reached the set number of consecutive times n1. That is, as described above, the jackpot notice that is performed when the determination result of step S60 is affirmative results in losing as a result. Restrict execution.
[0109]
Therefore, according to this embodiment, in addition to the effects (1) to (15) of the first embodiment, the following effects can be obtained.
(16) When the previous symbol combination game is performed, the jackpot notice is executed more times than the set notice number of times n2, and when the current symbol combination game is an off-stage effect including a specific reach effect, Even when the notice performance times F1 and F2 are not set, the jackpot notice is executed following the previous time. In this case, the executed jackpot notice is not realized, but when a reach effect (a reach effect that develops in two stages in this embodiment) that increases the expectation of the jackpot is performed, following the previous symbol combination game By executing the jackpot notice, it is possible to further increase the player's expectation for the jackpot.
[0110]
(17) Further, when the number of notices C2 has reached the set number of consecutive times n1, the execution of the jackpot notice is restricted even when the above-mentioned condition is satisfied. Therefore, it is possible to suppress the continuous execution of the jackpot notice that results in a gap. Therefore, jackpot notices (gasse continuous notices) that result in losing appearances frequently appear, and it is possible to prevent the player's expectation for jackpot notices from diminishing and discomfort to the players, and to improve the interest. be able to.
[0111]
(18) On the other hand, when a jackpot notice is executed subsequent to the previous symbol combination game when an off-stage effect including a specific reach effect is performed, the notice number C2 is not reset without resetting the notice number C2. 1 was added. Therefore, it is possible to prevent the symbol combination game that is a big hit without being executed immediately after the symbol combination game that is a loss effect including a reach production that increases the expectation of the big hit. Therefore, the big hit announcement can be made at an appropriate timing.
[0112]
In addition, you may change each said embodiment as follows.
In each of the above embodiments, the processes in steps S21 and S22 in the sub-side notice determination process (FIG. 7) may be omitted. In this case, when the general CPU 30a inputs the notice command, the general CPU 30a sets the number of notice effects F1 based on the notice command. Further, the process of step S44 in the notice effect pattern determination process (FIGS. 8, 9, and 13) may be performed as a pre-process or a post-process of step S25 of the sub-side notice determination process. Moreover, in each said embodiment, you may abbreviate | omit the process of step S48, S52, S53 in a notice effect pattern determination process (FIG. 8, FIG. 9, FIG. 13). In the second embodiment, the processes in steps S55 to S58 in the notice effect pattern determination process (FIG. 13) may be omitted. In the second embodiment, the process of step S61 in the notice effect pattern determination process (FIG. 13) may be omitted.
[0113]
In each of the above embodiments, when the number of notice effects F1 is newly set based on the notice command in the state where the number of notice effects F2 is set (step S23 → S24), the number of notice effects F2 is reset in step S24. In addition, the notice count C2 counted at this time may be set as the notice count C1. With this configuration, when determining the notice effect pattern, the effect of the jackpot notice executed in the current symbol combination game (the notice effect) follows the effect of the jackpot notice executed in the previous symbol combination game. Pattern) can be determined.
[0114]
In each of the above embodiments, the notification device may be controlled by the general CPU 30a, and the general CPU 30a may function as the notification device control means. Also, a notice command and a hold designation command are input to each of the sub CPUs 27a to 29a, and each sub CPU 27a to 29a is provided with a notice determining means, a counting means, a number determining means, an effect determining means, a notice controlling means, an execution number setting means, a continuous number You may make it function as a determination means and an execution restriction means. Further, the ROMs 27b to 29b may function as a notice effect pattern determining unit. In other words, the functions of these means can be any CPU (the overall CPU 30a, CPU27a-29a) and any ROM27b-30b may perform.
[0115]
In each of the above embodiments, the overall control board 30 may be omitted, and each control board 27 to 29 may execute various processes by inputting a control command from the main control board 26. In this case, the sub-control means is constituted by the control boards 27 to 29. When the jackpot notice is executed in the same manner as in the above-described embodiment, a notice command and a hold designation command are input to each of the sub CPUs 27a to 29a, the notice determining means, the counting means, the number of times judging means, the effect judging means, the notice It functions as a control means, an execution count setting means, a continuous count determination means, and an execution restriction means. Further, the ROMs 27b to 29b are caused to function as notice effect pattern determining means. Furthermore, when determining whether or not to execute the big hit announcement based on the announcement command, the sub CPUs 27a to 29a are caused to function as execution determining means.
[0116]
In each of the above embodiments, the overall control board 30 may be configured to use one or two of the display control board 27, the lamp control board 28, and the sound control board 29. For example, the voice control board 29 may serve as the overall control board 30 described in the above embodiment, and may control the control boards 27 to 29 in an integrated manner based on the control command output from the main control board 26. . At this time, the CPU, ROM, and RAM may be separately provided for voice control and general control, or may be provided separately. In this case, the audio control board 29 becomes an effect control unit and a general control unit.
[0117]
In each of the above embodiments, the display control board 27, the lamp control board 28, and the sound control board 29 are configured as separate boards. However, these control boards 27 to 29 may be arbitrarily combined to form a single board. good. For example, the control boards 27 to 29 may be constituted by a single board. At this time, the CPU, the ROM, and the RAM may be separately provided for display control, light emission control, and voice control, or may be shared. A single substrate configured in this way can execute a plurality of controls of display control, light emission control, and sound control, and becomes a plurality of effect control units.
[0118]
In each of the above embodiments, the variable display device 21 is a liquid crystal type, but the type of the variable display device 21 may be arbitrarily changed. For example, a CRT (CRT) type, plasma display type, 7 segment LED type, dot matrix type, or mechanical type (drum type or belt type) may be used.
[0119]
In the above-described embodiment, the game effect is performed by the variable display device 21, the frame lamp 16, the game board lamp 17, and the speaker 18, but the device for performing the game effect (effect device) may be arbitrarily changed. For example, a movable device that performs a game effect by the operation of a movable body, a vibration device that performs a game effect by vibration, and an aroma generating device that performs a game effect by generating aroma may be used. Moreover, you may make it perform a game effect by the combination by these arbitrary apparatuses.
[0120]
In each of the above embodiments, the device (notice device) that performs the jackpot notice may be arbitrarily changed. For example, the winning notification means such as the number-of-holding balls display 25 may be combined with an apparatus for executing a big hit notice. When the jackpot notification is executed by the winning notification means, the notification format (for example, blinking, lighting in a different color) different from the notification mode of the reserved memory number (winning notification) (lighted in the embodiment) It is possible to differentiate winning notifications. Further, the variable display device 21, the game board lamp 17 and the speaker 18 may execute the big hit notice alone. In addition, a lamp, a display, etc. dedicated to jackpot notice may be provided.
[0121]
In each of the above embodiments, the range of numerical values that can be taken by various random numbers such as jackpot random numbers, production random numbers, and various determination values (big hit determination value, main determination value, sub determination value, execution determination value) may be arbitrarily changed. good. For example, the main determination value may be “7” only or “7,919”. That is, the set number may be arbitrarily changed on condition that the main determination value is set to the same value as the big hit determination value. Further, the set number of sub determination values may be increased, for example, “11, 150, 200”. By changing the set number of sub-judgment values, it is possible to change the appearance ratio of continuous notices executed based on the execution judgment. In addition, the upper limit value of the reserved storage number may be arbitrarily changed, or the upper limit value may not be set. Further, the set number of consecutive times n1 may be arbitrarily changed, such as “3”, “5”, “6”.
[0122]
In each of the above-described embodiments, the set notice number n2 is set to “0”, but the set notice number n2 may be arbitrarily changed to “1”, “2”, “3”, and the like. Then, the predetermined number of times may be any number greater than the set number of advance notices n2, a number that matches the set number of advance notices n2, or a number that is equal to or greater than the set number of advance notices n2. For example, if the set notice count n2 is set to “2” and the predetermined count is set to be greater than the set notice count n2, the jackpot notice is continued when three or more jackpot notices are executed. One condition is satisfied for execution. In addition, when the set number of advance notices n2 is set to “2” and the predetermined number of times is set to be equal to the set number of advance notices n2, the big hit notice is continuously executed only when the two big hit notices are executed. One condition is established. In addition, when the set number of advance notices n2 is set to “2” and the predetermined number of times is set to be equal to or greater than the set number of advance notices n2, the jackpot notice is continuously executed only when the jackpot notice is executed twice or more. One condition is established. Note that when the set number of advance notices n2 is set to “0” as in the above-described embodiments, only the number of times greater than the set advance notice number of times n2 can be the predetermined number. That is, one condition for continuing and executing the jackpot notice is established only when one or more jackpot notices are executed. And, when the big hit announcement is continuously performed across multiple symbol combination games (for example, three times and four times), the big hit that the player holds according to the number of times that the big hit announcement is continuously executed The expectation for is also at its peak. Therefore, in this case, if the jackpot effect is not performed and the jackpot effect is performed without any notice in the next symbol combination game, the player's expectation for the jackpot notice is further diminished, leading to a decrease in interest. Therefore, if the jackpot notice is performed continuously across multiple symbol combination games, and this symbol combination game is a big hit effect, the player's expectation for the big jackpot notice by continuing the jackpot notice It is possible to suppress fading and improve interest.
[0123]
In each of the above embodiments, the pachinko machine 10 may be configured to perform a process (execution determination) for executing a big hit notice only with the overall control board 30 (the overall CPU 30a). That is, in the embodiment, the process (the main side availability determination) performed by the main control board 26 (main CPU 26a) for executing the big hit notice is omitted, and the overall CPU 30a, as in the embodiment, Make an execution decision based on the input. And it is comprised so that a jackpot notice may be performed based on the determination result of execution determination. According to this configuration, using the existing control command, it is possible to reliably continue the big hit notice in the number of symbol combination games corresponding to the number of reserved memories, and the main CPU 26a (main control board 26) is burdened. The jackpot notice can be executed without being forced.
[0124]
In each of the above-described embodiments, the big hit announcement is executed with four types of notice effect patterns, but may be executed with one type of notice effect pattern.
In each of the above embodiments, a common hold designation command is used, but the hold designation command output in the hold memory number process (FIG. 5) and the hold designation command output at the start of the symbol combination game are separated. Also good. Then, the overall CPU 30a performs execution determination based on the hold designation command output in the hold memory number process.
[0125]
In each of the above-described embodiments, the rate at which the determination result of the execution determination performed by the overall CPU 30a is affirmative may be changed according to the jackpot notice count values Y1 and Y2. That is, the number of execution determination values and sub-determination values that are set increases as the number of jackpot notice count values Y1 and Y2 approaches the numerical value indicating the upper limit value of the number of reserved memories, and the ratio at which the determination result of execution determination becomes affirmative. You may make it raise. For example, if the number value Y1 of the jackpot notice is “1”, the execution determination value is not set and it is determined not to execute the jackpot notice. When the number of hits notice Y1 is “2, 3”, the execution judgment value is set to “0 to 199 (all 200 types)”, and when the number of hits Y1 is “4”. In this case, the execution determination value is set to “0 to 250 (total 251 types)”. According to this configuration, as the number of the pending symbol combination games increases, the rate at which the continuous notice is executed increases, and when the continuous notice is executed, the number of consecutive big hit notices increases. The expectation for the big hit that the person holds can be further aroused.
[0126]
In each of the embodiments described above, the main CPU 26a performs the big hit determination and the main side availability determination using the big hit random number, but the main side availability determination using the notice determination random number (determination random number) different from the big hit random number. You can go. The notice determination random number is a random number that is sequentially updated (that is, updated synchronously) at predetermined intervals so that the same value can be obtained within the same numerical range as the big hit random number. The main CPU 26a reads out the jackpot random number and the notice determination random number from the RAM 26c upon detection of winning.
[0127]
  Next, the technical idea that can be grasped from the respective embodiments and other examples will be added below.
  (A) The main control means compares the value of the determination random number read when the winning is detected with a predetermined jackpot determination value to determine whether or not the jackpot determination value is the same as the jackpot determination value The advance notice determination value determined in advance to be compared with the value of the random number for determination read out when the winning is detected, to determine whether or not the notice effect can be executed, and the start is performed when the determination result is executable A main-side notice determining means for determining the number of executions of the notice effect based on the number of stored balls, and a notice signal for outputting to the sub-control means a notice signal indicating the number of executions of the notice effect determined by the main-side notice determining means The execution number setting means includes a first execution number that is the number of executions of the notice effect indicated by the notice signal, or a second execution that is the number of executions of the notice effect determined by the notice determination means. Any of the times In the setting means, the counting means displays a first notice means for counting the number of times the notice effect is executed when the first execution number is set and a notice effect when the second execution number is set. The counter is configured by second counting means for counting the number of times executed, and the number determining means determines whether or not a predetermined number of notice effects has been executed based on the number of times counted by the second counting means. Configured asIt was.
[0128]
  (B) The counting means resets the number of times when the specific effect content is the effect content of the jackpot effect and the notice control means performs control to execute the notice effect in the game effect.The
[0129]
  (C) The counting means adds 1 to the number of times when the specific effect content is the effect content of the off-line effect and the notice control means performs control to execute the notice effect in the game effect.The
[0130]
  (D) If the number of times counted by the counting means has reached a predetermined number of consecutive notice effects, and if the determination result of the continuous number determination means is affirmative, the notice control means An execution restriction means for restricting control to execute the notice effectIt was.
[0131]
  (E) If the number of times counted by the second counting means has reached a predetermined number of consecutive notice announcement effects, and if the determination result of the continuous number judgment means is affirmative, a notice is given. An execution restriction means for restricting the control means from performing control for executing the notice effect.It was.
[0132]
  (F) The specific effect content is a jackpot effect that is finally expanded so as to stop with a combination of jackpots, and the notice control means is affirmative when both of the determination results of the number determination means and the effect determination means are affirmative, It is configured to perform control to execute the notice effect without being restricted by the execution restriction means.It was.
[0133]
  (G) The specific effects include a jackpot effect and a specific reach effect that are finally expanded to stop at a combination of jackpots. It is the content of the production, and the execution limiting means is the production content of the production where the specific production content is off when both the determination results of the number-of-times determination unit and the production determination unit are affirmative, and the determination result of the continuous number of times determination unit Is affirmative, the notice control means is configured to restrict the control to execute the notice effect.It was.
[0134]
  (H) The notice contents of the notice effect that can be specified by the respective notice effect patterns are step by step each time the notice effect is executed in the game effects corresponding to the number of executions. It is configured to produce changing contentsThe
[0135]
  (I) The counting means starts counting the number of times based on the determination of the number of times of execution, and the determination result of either the number of times determination means or the effect determination means is negative. Configured to reset the number of timesIt was.
[0136]
【The invention's effect】
According to the present invention, it is possible to execute the notice effect at an appropriate timing and improve the interest.
[Brief description of the drawings]
FIG. 1 is a front view showing the front side of a pachinko gaming machine.
FIG. 2 is a front view showing a variable display device.
FIG. 3 is a block diagram showing a control configuration of a pachinko gaming machine.
FIG. 4 is an explanatory diagram for explaining a notice effect pattern.
FIG. 5 is a flowchart showing a pending storage number process.
FIG. 6 is a flowchart showing main-side notice determination processing.
FIG. 7 is a flowchart showing sub-side notice determination processing.
FIG. 8 is a flowchart showing a notice effect pattern determination process.
FIG. 9 is a flowchart showing a notice effect pattern determination process.
FIGS. 10A to 10F are schematic diagrams showing a mode in which a jackpot notice (continuous notice) is executed.
FIGS. 11A to 11H are schematic diagrams showing a mode in which a jackpot notice (continuous notice) is continuously executed;
FIGS. 12A to 12H are schematic diagrams showing a mode in which execution of jackpot notice (continuous notice) is restricted.
FIG. 13 is a flowchart showing a part of a notice effect pattern determination process in the second embodiment.
[Explanation of symbols]
SE1 ... Start winning prize sensor, P1, P2, P3, P4, P5 ... Direction pattern, n1 ... Set continuous number of times (notice effect continuous number of times), n2 ... Set number of advance notices (number of notice effect), 10 ... Pachinko machines (games) S), 23 ... Start winning prize opening, 26 ... Main control board (main control means), 26a ... Main CPU (hit determination means, main side notice determination means, notice signal output means, signal output means), 26c ... RAM (hold) Ball number storage means), 27 ... display control board (sub control means), 28 ... lamp control board (sub control means), 29 ... voice control board (sub control means), 30 ... general control board (sub control means), 30a ... General CPU (notice determination means, counting means (first counting means, second counting means), number determination means, effect determination means, notice control means, execution number setting means, continuous number determination means, actual number determination means, Restriction means), 30b ... ROM (announcement attraction pattern storage means), 30c ... RAM (setting means).

Claims (2)

In a gaming machine comprising main control means for controlling the entire gaming machine, and sub-control means capable of executing various controls relating to gaming effects based on control signals output from the main control means,
The main control means includes a holding ball number storage means capable of storing the number of stored start balls in response to a winning detection of a game ball by the winning detection means, and a determination random number value read in advance when the winning detection is detected. A jackpot determination means for comparing the determined jackpot determination value to determine whether or not it is a jackpot, and a determination random number read in response to the advance notice determination value and the winning detection that are equal to the jackpot determination value A main-side notice determining means for determining whether or not the notice effect can be executed based on the stored number of start-holding balls when the result of the determination is executable. A pattern determining means for determining an effect pattern capable of specifying at least the content of the effect of the game effect, a reserved ball number signal for instructing the memory number of the starting reserved ball, a pattern signal for instructing the effect pattern, and the memory And a signal output means for outputting a warning signal indicating the number of times of execution of the prediction effect of side notice determining means has determined the sub-control means,
The sub-control means determines whether or not to execute a notice effect in the game effect in response to the input of the reserved ball number signal. When the determination result is affirmative, the sub control unit is instructed by the reserved ball number signal. A sub-side notice determining means for determining the number of executions of the notice effect based on the stored number of start-up balls and the main-side notice determining means determining that the notice effect can be executed, and causing the notice effect to be executed. In this case, the first number of executions, which is the number of executions of the notice effect indicated by the notice signal, is set in the setting means, while the sub-side notice determination means determines whether the notice effect can be executed. wherein when executing the prediction effect includes an execution number setting means for setting a second number of execution times said a number of times of execution notice announcement attraction determined by the determination means to the setting means, the finger in the pattern signal The performance determination means for determining whether or not the content of the game effect based on the rendered effect pattern is a specific performance content, the counting means for counting the number of times the notice effect has been executed, and the counting means Based on the number of times, a number determination means for determining whether or not a predetermined number of notice effects have been executed in the previous game effects including a notice effect executed in the previous game effect performed immediately before the game effect; When the number of executions is set in the setting means, control is performed to execute the notice effect according to the number of executions. When the number of executions is not set in the setting means, the number of times determination is performed. If the determination results of the means and the effect determination means are both affirmative, the notice control hand performs control to execute the notice effect in the current game effect following the previous game effect. It equipped with a door,
The counting means executes a notice effect when the first execution number is set, and a first count means for counting the number of times the notice effect is executed when the first execution number is set, and the second execution number is set. A second counting means for counting the number of times;
The number-of-times determining means is configured to determine whether or not a predetermined number of notice effects has been executed based on the number of times counted by the second counting means .
The sub-control means includes a continuous number determination means for determining whether or not the number of times counted by the second counting means has reached a predetermined number of consecutive notice effects, and a determination result of the continuous number determination means If the result is affirmative, the notice control means includes an execution restriction means for restricting the control to execute the notice effect, and
The specific effect content includes a jackpot effect that is finally expanded to stop at a combination of jackpots, and a specific reach effect, and finally an effect of an outage effect that is expanded to stop at a combination of deviations. Content
The notice control means restricts the execution restriction means when the specific effect contents when the determination results of the number determination means and the effect determination means are both affirmative are the effect contents of the jackpot effect. A gaming machine configured to perform control to execute the notice effect without being received . The execution limiting means is that the specific effect content when the determination results of the number of times determination means and the effect determination means are both affirmative is the effect content of the outlier effect, and the determination result of the continuous number of times determination means The gaming machine according to claim 1 , configured so as to restrict the notice control means from performing control to execute a notice effect when the result is affirmative .

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